The weak-link sleeping dog has been hashed out on other forums akin to whipping a dead horse. Some moderators have even lock down threads about weak-links rather than go stark raving mad.
Forget the endless argument over what weak-links are for.
Simplify it down to what they do.
Tow--or--break.
Forget what releases are for.
Simplify it down to what they do.
Release--or--fail to release.
First this: Tow--or--break.
If a weak-link breaks and it puts you at risk due to loss of towing tension what was your plan B, for when the towline failed? For when the release broke apart? For when something went through the aero-tugs prop and it disintegrated? For when the tow vehicle ran out of gas? For when an internal muffler baffle broke off inside and plugged the aero-tows muffler exhaust, killing the motor? (Hopefully nothing else.)
For when the tug’s throttle cable broke? For when the oil injector failed and the motor seized? For when the tug pilot bumped the choke lever and flooded the motor? For when a deer or kid ran out in front of the platform truck? For when dirt got into the fuel and killed the motor? For when the spark plug fouled?
HAD ENOUGH? No? Okay then -- to continue, what was plan B, for when the tugs joystick control cable broke on the tug? For when the tug couldn’t clear the trees and dumped the towline? For when the tow trucks coil burned out? For when a tow vehicle tire blew out? For when the tugs front wheel fork snapped and dug into the dirt before lift off?
OH ---OH--
Here is one you’ll like: A friend had his chest safety belt come unhooked from the lap buckle and the chest belt went into the prop killed the Rotax engine and destroyed the prop.
I know other motor heads out there are reading this and haven’t yet read here what happened to them. Feel free to reply and expand the list of other stuff that can reduce thrust that wasn’t planned.
The point here is if you are being towed into the air and not expecting that at any second you will be able to handle the loss of tow tension, YOU ARE DOING SOMETHING WRONG!
Example. The contest launch director signaled the tug to start the tow. There is a two to three mile per hour tail wind. You’re comfortable that your weak-link will not break because you are using a strong-weak-link. The (Lord help me--) strong weak-link will get you safely to altitude so that you would have enough room to turn into the wind to land should it become necessary. The last thing you want to do is give up your, “next up,” position and go the back of the line with your launch dolly to eliminate the tailwind launch.
But let’s be real here. Will the stronger weak-link also protect you from all those other thrust killing events that we just went over and others that we haven‘t even brought up?
It is times like these that you have to recognize that, YOU ARE DOING SOMETHING WRONG! (Pop Quiz. In this case what was it?)
Does the thought of your weak-link breaking make you uncomfortable? It shouldn’t.
When I/we static tow (ST) with a car or truck we use 1,600’ of towline.
We tow not to the end of the tow road but 3/10 of a mile short of the end. After we dropped the line the car will slowly drive to the end. That will allow our dropped end to be pulled out of the side field and back up onto the road. All this while the weak-link would be getting roughed up for 3/10 of a mile.
We would release the car end and go back to attach to the pilots’ end and pull it back to the next pilot. So we would never reuse a weak-link.
Since it was a one time use we often would troll down the tow road for thermals. If we were approaching the 3/10th of a mile end point and before we got there and having not yet hooked a thermal we would, “Milk the weak-link.” We would see how much extra altitude we could get before the weak-link broke or we arrived at the 3/10 of a mile end point.
The strongest weak-link that we ever used was 350 lbs (1.6 times our all up weight.) for payout winch/reel.
For static we use 220 lbs for a weak-link. Neither of these two breaking limits would cause any control problems when they broke. (Of course you have to pull the bar in when the weak-link broke or the hang glider will climb, drop airspeed and stall.)
Nothing takes all the fear out of a weak-link breaking than doing it on purpose during the many static tows that you do. You develop a feel for when they are about to break. It even helps when towing into a thermal low. You know when to get the nose down to save your weak-link so that you can continue to top out.
Release--or fail to release.
I can’t agree with the following statement that I have heard from several sources in the past that goes something like this--
The statement:
I no more expect my release to fail than I do my hang strap.
I don’t think releases are as reliable as a hang strap for the following reasons.
I’ve used just about every release known to the sport of hang gliding with the exception of the chest mounted KOCH and a Tost release.
I’ve noticed that even this Tost release had several theories involved for the failure with similar applications that are recorded at the sailplane website. It is quite possible that the hang gliding use and the sailplane use have nothing at all in common. I have no experience with any type of chest mounted KOCH or Tost release.
https://groups.google.com/forum/#!topic ... qkM7QyKc8Ihttp://www.tost.de/Eindex.html This is not going to be an in depth investigation into the reasons that all releases that I have used to date have failed. If I believed for one second that my hang strap was equally as reliable as the best release out there I would not fly again. What I do is adopt a procedure that has, built into it, allowances for the few chances of a release failure.
Why? Because I’ve had a few too many release failures.
On the other hand if my hang strap had failed with the same regularity as my release failures you would not be reading this.
I was really excited years back to read up on the Link-Knife development and ordered several. Finally, a release that was even fool proof. (Or at least to those less of one than me.)
The first failure was when the release after having been dragged through the snow, which filled up the plastic tube, then froze solid at altitude. Pulling the release cord just shook and bowed the towline a little.
The second failure was slushy snow on the “O” ring. At altitude it froze to the plastic tube and prevented the “O” ring from moving which prevented the weak-link string from coming in contact with the two internal razor blades.
Pulling the release cord just shook and bowed the towline a little.
The third failure (not the fault of the release) was using some twisted poly-pro., towline instead of diamond braid poly-pro 3/16 inch.
Under tension the rope untwisted about three to five times which wrapped the Skyting Bridle up about three to five times and captured the release cord between the keel rope and the body ropes to the pilot. Pulling the release cord just shook and bowed the towline a little.
The fourth failure was during mid summer on what we referred to as Gene’s Field. Gene Stone found it. A piece of straw somehow got into the slot of the Link-knife and shielded the weak-link string from the two razor blades. Pulling the release cord just shook and bowed the towline a little.
I’ve had threaded bridles capture in the process of unthreading after releasing.
I’ve had straight pin barrel releases fail to release.
I’ve had curved pin barrel releases fail to release.
Which by the way I hope everyone has seen the picture that Jim Rooney put up on the OZ report about accidentally rigging up a curved pin barrel release backwards so that it will not release once the barrel is pulled back. I find it unbelievable that this failure to release didn’t also happen to me. I must be getting luckier.
I’ll spare you the other release failures and captures.
I’m able to post this because I never towed with a weak-link --- that wasn’t!!
I’m not going to waste my time worrying about a weak-link that might break.
I’ll save the worry for when it doesn’t.
If you are of the opinion that the weak-link is only there to protect the hang glider and you are using a tow line with the same strength as 3/16 poly., rope then why not eliminate the weak-link completely? 3/16 poly towline will never break a hang glider in the air.
Some pilots may think this last suggestion about removing the weak-link sounds stupid but that’s only because they’re correct.
If you haven’t hooked up your towing bridle and weak-link between two vehicles (car or truck) and slowly pulled the weak-link to destruction to see what will happen ---YOU ARE DOING SOMETHING WRONG!
If a tow pilot hasn’t had a release failure or a capture upon releasing -- you will.
There is a far, far, lesser chance of a hang strap failure.
Earlier you read that you should have a plan “B” for when you lost tow tension since there are many more possible causes than a weak-link break. (Again motor heads please feel free to reply to this post with other thrust killing experiences not yet covered that you heard or know about.)
Now what is the plan, “B” for a release failure, for example, while aero-towing? Jim Rooney over on the OZ Report weak-link thread said something to the effect that a pilot could push out and pop the weak-link to get free of tow. (Paraphrased and not verbatim.)
Jim and I are on the same page with respect to weak-links.
My personal plan, “B” for when my release fails will be of no use to the pilots
found in the camp of, “Strong Weak-Links. (oxymoron.)
Pilots in this camp are precluded from applying my plan, “B” so we have to move quickly to plan, “C.”
The problem here is that I have never personally had to move beyond my plan, “B,” to my plan, “C,” Parachute (four feet off of the dolly?---yeah r-r-r-i-i-ght.) “D,” Prayer, and last on the list, --- hook knife. (With the exception of one point attachment while platform towing which may work.)
(I have at times had several redundant back up releases.)
I fully expect that cutting a towing bridle or towline (static tow, platform or dolly tow) near the ground would pose the ultimate test exercise for any “Focused Pilot.”
My plan “B” after a failed release attempt is first to break the weak-link on purpose.
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