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  • Trim Tab Travel.

    I'm working on trim tabs and need to know how much they travel so that I can get the right cables. Can someone with a flying bearhawk measure how much deflection the trim tab has at full up and down trim and which trim tabs they have?

    Thanks,
    schu

  • #2
    Probably good to specify which model you need the information for, since you posted in the "general discussion" area.
    Jim Parker
    Farmersville, TX (NE of Dallas)
    RANS S-6ES (E-LSA) with Rotax 912ULS (100 HP)

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    • #3
      Oh, yea!

      It's a bearhawk 4 place

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      • #4
        Matt - without the cables attached the trim tabs move much more than needed. Set up the trim horns vertical or 90 degrees to the fuselage when leveled and those arms (that the pushrods attach to) also straight down when the trim tabs are in trail. If you do that you will be fine. Mark

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        • #5
          Yes, I know, but I'm going to use a push pull cable and need to know how much travel the trim tab needs in flight to spec out everything.

          If the travel is only 2" as measured on the very end of the tab, or say 30%, then that tells me how much throw I need.

          Another way my question could be answered, is using the Avipro trim wheel, how many rotations of the wheel do I use for full trim up and full trim down? If it's only 1 turn, then I can do some math and figure out what what equates to at the very end of the trim tab.

          Thanks,
          schu

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          • #6
            Not trying to be negative regarding your push-pull idea but do be sure the linkage doesn't have enough give to allow the tabs to flutter. Just my thought...

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            • #7
              I have completed our BH and now have 32 hours on it. it's true the trim is very sensitive, but it's just a part of the learning curve. I have a completely stock trim system. the travel adjustment is minimal for any flight operation. i don't feel the install of a wire type cable is a good idea. if you do, be sure to have a vernier cable type as this will help to make the small adjustments you need, especially in rough air conditions. i still think the stock trim wheel is probably the best answer. if i didn't have a quick build kit and the elevators were not already welded, i would have made the tabs half as deep and that would desensitize them. the movement travel now is less then a quarter of a rotation on the control wheel for any flight situation. i like the trim best when the flaps are applied to counter the pitch changes. I realize this topic was posted a while ago, but this might help someone anyway.

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              • #8
                Schu,
                Are you using Pat Fagan's trim system?

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                • #9
                  Schu,
                  Are you using Pat Fagan's trim system?

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                  • #10
                    Mark Moyle,

                    Call me when you get a second and we can discuss.

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                    • #11
                      Thanks for the comments Whee and N134RT. I want to run the Pat Fagan push/pull like Whee, but I'm also going to use the Bristol SG servo as I feel way more comfortable with the strength and metal push rod. Looking at the throw of .7 or .11 over 12 or 19 seconds may allow me to skip past any kind of bellcrank and make for a very simple electric trim.

                      I'll do some math and measuring and post what I come up with.

                      schu

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                      • #12
                        So this servo: http://www.bristolsg.com/B6specs.html can be purchased with 1.1" of movement over 19 seconds and will provide a force of 50lbs and a static holding thrust of 500lbs.

                        Measuring out my kit trimwheel and trimtab using accurate enough methods I come up with the following (when using the lower most hole on the trim tab):

                        Turns of the wheel Pushrod movement Tab Angle
                        0 0 12*
                        1/4 .250" 3*
                        1/2 .500 -4*
                        3/4 .750 -10*

                        So for 3/4" of movement the tab has a total of 22* of movement. This is really all the more you would ever move it because the trim crank on the back turns pretty flat at this point.

                        So if the bristolsg servo moves .058" per second, then the 1/4 turn that Rob was talking about above is 4.3 seconds of trim.

                        I'll change the trim tab mounting so that 1/4 trim is more like 7-8 seconds of trim (or use a voltage divider to slow the servo) so that it's go about the right amount of movement and sensitivity.

                        Thanks,
                        schu

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                        • #13
                          Just a couple thoughts/comments. Schu - have you flown in a BH with the kind of trim set up you are installing? I am curious. I know you have flown in mine.

                          Secondly, runaway electric trim can be very deadly in planes with lots of trim authority like a BH. So I would be sure that you can disable and overcome any electric trim system. I know some builders have used electric trim successfully. But runaway electric trim is something to be very cautious of. Mark

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                          • #14
                            I have tested flying the Bearhawk with full trim runaway, and it's not an unstoppable problem.
                            I also tested responding an unexpected and unplanned trim runaway too. No problem, a pilot's instinct is to hold the plane level. It doesn't zoom / dive much before you react.

                            You just need to slow down a bit to reduce stick forces if you are going to keep flying for a long time.

                            You want about 30 degrees tab-down down, less for tab-up. Maybe 20 degrees.

                            I did a thread on electric trim, if you are interested.
                            Last edited by Battson; 10-15-2017, 10:27 PM.

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                            • #15
                              Battson, thank you for your reply.

                              Is this the thread you were talking about?
                              I had a question about how I did my electric trim, so though I’d post the answer/pictures to make use of the new forum. My key design parameter was to preclude


                              I was looking at it, but the images are all not working.... we see "Please update your account to enable 3rd Party Hosting"



                              Anyway, perhaps you can answer a few questions for me. That would help me a lot!

                              Did you use mount the servo and use a pushrod between it and the trim bellcrank?

                              What I'm talking about doing is attaching the servo directly to the push/pull cables and doing something like what you did, but with Pats push pull cables.

                              You mentioned 30 degrees tab down and 20 degrees tab up, but that doesn't agree with Rob's comment that it only takes a quarter turn on the trim wheel to go from full nose up and full nose down, because a quarter turn on my trim wheel is only about .250" of pushrod (under the elevator) movement and around 15 degrees of total movement at the trim tab. Any thoughts on why these findings don't agree? Perhaps Rob hasn't explored every edge of the weight/cg envelope.

                              According to my more precise measurements, using the hole closest to the elevator, it takes about 7/8" pushrod movement to move the tab 30*. So with 1.1" of servo movement, I can expect around 38* total trim tab movement. If this is enough, then great, if not, I might be able to get another 10* by moving the arm closer to the tab, other than that I'll have to build some sort of bellcrank which I really wan to avoid.

                              Thoughts?

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