We upgraded our boat to the Axiom system and later found out that our old autopilot with a wheel drive wasn't capable of doing all the new capabilities. So we upgraded to the new autopilot with a wheel drive that looked identical to the old unit. We kept getting low voltage errors and the system not responding properly. Raymarine told us that he upgraded autopilot wheel drive was no longer strong enough for a H34 and that they gave us a deal on another upgrade to the EV200 with the linear drive.
The next task was to figure out how to install a linear drive on a H34. There are at least two options, buy the Edison short arm or fabricate an attachment plate. I tried to figure out how to mount the Edison short arm underneath in the aft cabin, but while it would attach above the rudder drive wheel, there was really no space for the HUGE linear drive assembly. The other option was to install it in the lazarette, which would be renamed the linear drive bay (since it would require a major framework that might take up most of one side of the lazarette. I decided to try and use my engineering degree (electrical NOT mechanical) to design something that would be secure, reliable and not take up too much room. We decided that it was worthwhile to take up some headroom in the aft cabin rather than half the lazarette.
I'm in the middle of the fabrication, which actually is not that difficult and will provide more pictures as we finalize the installation, but thought I might get some advice from others that have attempted a similar fabrication, if any.
Using 1/8 stainless steel, I cut two plates and drilled four holes in the rudder drive wheel. I've attached the plates to the drive wheel with 4 two inch 5/16 SS screws. I instant glued about 10 SS 5/8 (?) washers together to provide a solid shim between the two plates so that I could really tighten the linear drive bolt to my plates. I'll add a second set of bolts and washers to the inner side of the plates so that the plate won't be torqued by the linear drive bolt when I tighten it down. Everything seems to be working appropriately.
I located the linear drive to the port side and installed a 12 x 20 x 1 inch starboard inside the bottom of the lazarette to spread out the torque. Plus two 4x4x1 starboard pieces to go under the linear drive bracket so that the drive arm was parallel to the drive wheel. I also found out the forward and aft positions for the drive bolt so that the total swing of the arm during operation was minimized (hopefully under their 5 degrees.
I should have some "final" photos next week.
Any suggestions?
The next task was to figure out how to install a linear drive on a H34. There are at least two options, buy the Edison short arm or fabricate an attachment plate. I tried to figure out how to mount the Edison short arm underneath in the aft cabin, but while it would attach above the rudder drive wheel, there was really no space for the HUGE linear drive assembly. The other option was to install it in the lazarette, which would be renamed the linear drive bay (since it would require a major framework that might take up most of one side of the lazarette. I decided to try and use my engineering degree (electrical NOT mechanical) to design something that would be secure, reliable and not take up too much room. We decided that it was worthwhile to take up some headroom in the aft cabin rather than half the lazarette.
I'm in the middle of the fabrication, which actually is not that difficult and will provide more pictures as we finalize the installation, but thought I might get some advice from others that have attempted a similar fabrication, if any.
Using 1/8 stainless steel, I cut two plates and drilled four holes in the rudder drive wheel. I've attached the plates to the drive wheel with 4 two inch 5/16 SS screws. I instant glued about 10 SS 5/8 (?) washers together to provide a solid shim between the two plates so that I could really tighten the linear drive bolt to my plates. I'll add a second set of bolts and washers to the inner side of the plates so that the plate won't be torqued by the linear drive bolt when I tighten it down. Everything seems to be working appropriately.
I located the linear drive to the port side and installed a 12 x 20 x 1 inch starboard inside the bottom of the lazarette to spread out the torque. Plus two 4x4x1 starboard pieces to go under the linear drive bracket so that the drive arm was parallel to the drive wheel. I also found out the forward and aft positions for the drive bolt so that the total swing of the arm during operation was minimized (hopefully under their 5 degrees.
I should have some "final" photos next week.
Any suggestions?
