Ok guys - here we go again on the Holly Buddy train.
This time it will be a Flat Twin (hopefully). Hopefully as it does have an arrangement that may not work. I want to make it with solid conrods, and therefor need to have a made-up crankshaft. To this end I have made the front and rear crankshafts (the rear is to stabilize this type of arrangement) and the 2 will be joined by an interlink disc . I am aware that in engineering practice this is not a good idea and may not work, but I cannot see why it won't - so much so that I am willing to invest maybe 100 hours to see if does or does not. The interlink disc will not be fixed to either front or rear shaft's bigends, but will float there and stopped from going elsewhere by the bigend width of the conrods either side.
The way I see it is the front and rear shafts are captured and stabilized by their respective bearing surfaces - and a ball bearing is used immediately adjacent to the bigend disc front and rear, then when one rotates with the interlink disc it causes the other to follow, yes there will be major forces through the crankpin, and I have chosen 41/40 steel and made the bigend bigger than the Holly Buddy single, so my theory is that it should work, as I said, only one way to find out - build it and see. If it fails I'll have the makings of one and a half Holly Buddies so all will not be lost.
The original Holly Buddy build was awarded "Project of the Month" back in May 2017 and the build can be found at https://www.homemodelenginemachinist.com/threads/new-2-5-cc-model-diesel-design-and-build.26084/ The engine was also tested by Maris Dislers and written up over 4 pages in the January 2019 issue of Aeromodeller.
I will update the build as it progresses - here is a photo of the 2 shafts against a rough drawing of the crancase - the next thing to make.
This time it will be a Flat Twin (hopefully). Hopefully as it does have an arrangement that may not work. I want to make it with solid conrods, and therefor need to have a made-up crankshaft. To this end I have made the front and rear crankshafts (the rear is to stabilize this type of arrangement) and the 2 will be joined by an interlink disc . I am aware that in engineering practice this is not a good idea and may not work, but I cannot see why it won't - so much so that I am willing to invest maybe 100 hours to see if does or does not. The interlink disc will not be fixed to either front or rear shaft's bigends, but will float there and stopped from going elsewhere by the bigend width of the conrods either side.
The way I see it is the front and rear shafts are captured and stabilized by their respective bearing surfaces - and a ball bearing is used immediately adjacent to the bigend disc front and rear, then when one rotates with the interlink disc it causes the other to follow, yes there will be major forces through the crankpin, and I have chosen 41/40 steel and made the bigend bigger than the Holly Buddy single, so my theory is that it should work, as I said, only one way to find out - build it and see. If it fails I'll have the makings of one and a half Holly Buddies so all will not be lost.
The original Holly Buddy build was awarded "Project of the Month" back in May 2017 and the build can be found at https://www.homemodelenginemachinist.com/threads/new-2-5-cc-model-diesel-design-and-build.26084/ The engine was also tested by Maris Dislers and written up over 4 pages in the January 2019 issue of Aeromodeller.
I will update the build as it progresses - here is a photo of the 2 shafts against a rough drawing of the crancase - the next thing to make.
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