SSQA mod
- Thread starter mcfarmall
- Start date
Surprised you never saw them. When I grease my parallel linkage on the front of the FEL, I raise it up to a convenient height and those fittings are right there in front of your face. Guess you weren't looking.
That's an excellent question. Due to my aging condition, some things are getting harder to see. The orange SSQA bracket against an orange bucket is a prime example. I made a pencil mark on the back of the bucket while it was attached and then applied the pipe marker arrow tape along that line on both sides. They're like runway lights on a landing strip. Worked so well I put arrow strips on all my SSQA attachments. Helps out a lot on the black ones too like my pallet forks and grapple.
xrocketengineer
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Lifetime Member
Equipment
BX1880, FEL, Grapple, 36 in. Forks, 48in. MMM, Quick Spade, Ripper
Please forgive my "tractor" ignorance. I got my first tractor just over a year ago at my tender age of 66 and I do not have the SSQA but the pin on bucket. A choice made based on the limited FEL capacity of the BX1880 (plus it was cheaper).
But what I just learned about the overcenter mechanism of the SSQA latches scare the hell out me. I am familiar with plenty of overcenter mechanisms from my years working for NASA and I understand that a tractor is not "critical flight hardware" but still, that an attachment remains firmly attached to the FEL during operation seems critical to me too. I have never seen an overcenter mechanism where one of the linkages was not rigid. In every case the linkages are rigid and the spring (if any) was in parallel with a link but not in series like in the SSQA.
When you look at the diagram below, you can see that the spring is (sort of) parallel to the link and not part of the link. The spring pushes to rotate the bellcrank to make the link go to either side of the of the on-center position (horizontal position).
When you look at Position B, the bellcrank stop has rotated to the the fixed stop and the linkage is overcenter, past the horizontal position. At that point, you can push on the slider (pin) all you want in the direction labeled as "Backdrive Force" and it is not going to budge unless something bends or breaks. In addition, if the pins on the SSQA worked that way, the hand lever could not be moved all the way if the SSQA pin was not properly aligned with the hole that it is supposed to go into.
Am I missing something on why this SSQA attachment scheme appears to be the industry standard but does not follow the conventional design for overcenter mechanisms? My inquiring mind would like to know.
For the explanation how the mechanism works see:
With a grapple it's possible to get something to move the lever enough to release the lock pin. The solution can be simple, two holes and a bungee cord.
Attachments
North Idaho Wolfman
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L3450DT-GST, Woods FEL, B7100 HSD, FEL, 60" SB, 743 Bobcat with V2203, and more
The main reason SSQA's work so well is that they allow for variations in materials, attachments, climate, conditions, and debris.
With a spring loaded wedge very little stops it from engaging.
I've run bobcats for years with an SSQA and I've yet to have anything fall off or become unlatched.
My tractor has a home made SSQA and it only gave me troubles when I first made it as I has the adjustments off on the latches, ever since never an issue, and I work the heck out of my machines!
With a spring loaded wedge very little stops it from engaging.
I've run bobcats for years with an SSQA and I've yet to have anything fall off or become unlatched.
My tractor has a home made SSQA and it only gave me troubles when I first made it as I has the adjustments off on the latches, ever since never an issue, and I work the heck out of my machines!
But your SSQA spring is installed over the wedge pin rod, not the "bell crank". Your picture example isnt how these SSQA`s are designed. Similar concept, but not built the same in relation to where the springs are located.Please forgive my "tractor" ignorance. I got my first tractor just over a year ago at my tender age of 66 and I do not have the SSQA but the pin on bucket. A choice made based on the limited FEL capacity of the BX1880 (plus it was cheaper).
But what I just learned about the overcenter mechanism of the SSQA latches scare the hell out me. I am familiar with plenty of overcenter mechanisms from my years working for NASA and I understand that a tractor is not "critical flight hardware" but still, that an attachment remains firmly attached to the FEL during operation seems critical to me too. I have never seen an overcenter mechanism where one of the linkages was not rigid. In every case the linkages are rigid and the spring (if any) was in parallel with a link but not in series like in the SSQA.
When you look at the diagram below, you can see that the spring is (sort of) parallel to the link and not part of the link. The spring pushes to rotate the bellcrank to make the link go to either side of the of the on-center position (horizontal position).
When you look at Position B, the bellcrank stop has rotated to the the fixed stop and the linkage is overcenter, past the horizontal position. At that point, you can push on the slider (pin) all you want in the direction labeled as "Backdrive Force" and it is not going to budge unless something bends or breaks. In addition, if the pins on the SSQA worked that way, the hand lever could not be moved all the way if the SSQA pin was not properly aligned with the hole that it is supposed to go into.
Am I missing something on why this SSQA attachment scheme appears to be the industry standard but does not follow the conventional design for overcenter mechanisms? My inquiring mind would like to know.
View attachment 52100
For the explanation how the mechanism works see:
You can still push those wedge pins up out of their hole even with the handle not moving and locked down. I just tried it with mine, and i can (with enough force) pry the wedge pins upward and the handles stayed put.
Anybody can hit one of these wedge pins just right, and with enough force, that attachment CAN come off, even with locking the handles down. I do understand what everybody`s theory is when they try to tie down the handles, but that`s not going to solve the whole problem. It may help in the short run, but it wont completely fix the problem.
I think where most people are getting into trouble with these SSQA`s is that they arent making sure that the wedge pins are fully seated into the hole. A person could have debris in the hole and the handle will still travel to its home location and stop, but the pin may not be fully home into the hole. I had it happene to me, a rock last year got jammed in the wedge pin hole, i didnt see it before i sent the handles home, but i was smart enough to look to make sure the pins were seated, and the one pin wasn`t. So i took the bucket back off, knocked the little stone out, pins went home properly after that. I`ve even seen people not even hit the holes too, and didnt pay any attention, minute later, bucket came off loader frame.
xrocketengineer
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Lifetime Member
Equipment
BX1880, FEL, Grapple, 36 in. Forks, 48in. MMM, Quick Spade, Ripper
That is exactly what I was pointing out. If the SSQA mechanism were built like the diagram I posted, it would not be possible to engage the pin and rotate the handle all the way if there anything preventing the pin from engaging. I addition, once the pin is properly engaged, nothing could push the pin back to disengage unless something broke. So that is my question, why is the SSQA built in such an unconventional way that ends up having those two failure modes? It does not make sense to me.
The pins are spring loaded to help with the universal fit aspect. Not all attachments are the same and in order to maintain a reasonably tight fit the linkage may require adjustment. The spring loaded pins are self adjusting account for differences in the bracket.
You an i are both on the same page about this. I would feel alot better if there were a way to LOCK the wedge pin in place once it reaches its home position. Locking/securing the handle itself dosent fix the main problem.
I dont know any other method to their madness on the design of why its like it is, other than what @rugar1980 describes. Seems logical anyway. I would think if it were a really big widespread problem, we would see a design change pretty quick. But this system has been around awhile, alot of companies use it. But is it dummie proof? Nope! Not until they design an actual locking mechanism for the wedge pins.
In the mean time, its best to always re-check everything to make sure its right before using the equipment.
GreensvilleJay
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Equipment
BX23-S,57 A-C D-14,58 A-C D-14, 57 A-C D-14,tiller,cults,Millcreek 25G spreader,
re:
It does not make sense to me.
...it makes a LOT of cents to me though...
To design a 'bulletproof' system would cost big $$$ to design,test and build. SSQA is a 'universal' system so there has to be some 'give and take'. There are probably millions of machines out there with SSQA and 10s of millions attachments made....it's down to being a 'compromise' to make something economical that everyone can use. You could easily replace the arms and springs and pivots and whatever with a custom linear actuator/ wedge unit and there'd be NO way the wedges would EVER come out BUT that comes at a cost, maybe $100 a side, $200 / unit PLUS wiring,switches, etc.(nuther $200) Can it be done sure....I've got plans here on the wall but how many guys WILL fork over another $400 for it ???
It does not make sense to me.
...it makes a LOT of cents to me though...
To design a 'bulletproof' system would cost big $$$ to design,test and build. SSQA is a 'universal' system so there has to be some 'give and take'. There are probably millions of machines out there with SSQA and 10s of millions attachments made....it's down to being a 'compromise' to make something economical that everyone can use. You could easily replace the arms and springs and pivots and whatever with a custom linear actuator/ wedge unit and there'd be NO way the wedges would EVER come out BUT that comes at a cost, maybe $100 a side, $200 / unit PLUS wiring,switches, etc.(nuther $200) Can it be done sure....I've got plans here on the wall but how many guys WILL fork over another $400 for it ???
I seriously doubt anybody would buy it. Even i could build a simple lock a hell of a lot cheaper than that. What you`ve got is to complex for a such simple fix.
I love this discussion. Rehashing a design from the 70s that works and was most likely built out of necessity by some farmer. The original version on the 40 plus year old Bobcat that dad bought new is still functional though has required some new parts. When I replaced the wedge pins I had to build up the point on the bucket where the wedges hit by 1/4 inch to get the wedges tight again. If this design was problematic it would not have been accepted as the standard design for quick attachment of buckets. Bobtach works
I think it comes down to more of an operator error than a design error. Could it be a better design? Yes.
I would gladly pay for a SSQA power "kit".
Even the specs to build one would be good.
Between the bucket/grapple/forks/Hydraulic Auger/Snow Pusher/Snow Plow. I use mine a LOT and getting off the tractor twice everytime is a pain.
After the Top & Tilt added and the QH on the back, I never have get off the tractor anymore for 3pt unless there is a PTO connect.
I would like to get the front that efficient.