Only a few pieces of tubing left in the stack. I still need to tack on a temp tail post and put on a few more tubes in the tail, but other than that everything is tacked.

*Note: Deviation from plans. Changes to the LSA shown here have not been approved by the designer. I will be making a few modifications to the cockpit area for my specific mission. One of those changes is to the rear seat. From the stock position it will be adjustable: 4-5" forward, 2" lower - 2" higher, the seat base incline will adjust, and the seat back recline angle. The seat will not span the entire width of the rear fuselage. The frame will be around 19" wide. I need to be able to remove, fold, and stow it in the baggage area. Additional structure will be added from station B to D. (similar to the changes incorporated into the Patrol in 2014, in this same area.) The aircraft will be used extensively off airport. The purpose of these mods will be to strengthen the gear and float attach areas, as well as increase the cockpits ability to resist deformation in a crash. A very close eye is being kept on retaining the light weight of the LSA. The photos bellow show a truss that I designed and tacked together today. It serves a multiple roles: 1. Strengthen the float attach area. 2. Provide more rigidity and support to the 3/4"x 035 tube that runs vertically to the rear wing spar attach. 3. Provide an attach point for two vertically adjustable seat supports. 4. Provide a tie down point and barrier to keep cargo strapped down and away from the rear stick when the passenger seat is out. I made and drilled two telescoping seat supports, jigged, and tack welded them to station D. The bottom portion of these will be removed when the welding is finished on the rest of the truss. I cut most of the way through, half way up the supports. This will allow easy removal later. The jig was removed, and the remaining truss tubes were fitted and tacked. I also found a tapered 3/8 nozzle online, with a tapered contact tip for my little 135 welder. It works great, and makes getting into clusters for tacking much easier.

*Note: Deviation from plans. Changes to the LSA shown here have not been approved by the designer.

Cut and assembled the additional side cabin truss assembly. The diagonal tube that runs across opposite the door has been omitted. (it was cut up and used for the truss) The diagonal in the side truss runs opposite of the Patrol, which I believe would be more ideal, but I want to utilize as much of the original LSA tubing kit as possible.

Some small pieces of plated where added, sandwiching the seat adjustment tube socket. I wanted a little more structure to carry loads through that area than just a short piece of tubing with holes. With some good welds, the area should be sufficient for its purpose.

Approximate weight gain:
Station D truss: 1.25 lbs
Cabin side truss: 1.25 lbs (almost half of the tubing came from the omitted diagonal)

There will likely be additional weight added with the adjustable seats and dual doors, though I am considering some ways to keep those items very light.

Finished final tacking the fuselage this afternoon. Put in a short temporary tail post, the full length tail post will go in after the rest of the frame is welded and off the rotisserie. I have a two month job at a remote site starting this week, and am having a hard time putting the project down. There is building, and there is funding the build... both are required. It will be a good opportunity to finish designing the seats and cockpit layout.

I've been really pleased with this little Porter Cable PTX2 die grinder. A 1/16" x 3" cut off wheel comes in handy for cutting or grinding tacks. The little 3/4" sanding drum worked well for fine tuning the tail post fit. The 2" fine scotchbrite spin on wheels work great for cleaning tubing ends. The 2" flapper grinding disk removes material quickly. For most standard garage fab projects a 4" electric grinder is the go to tool, for aircraft work this little die grinder is the ticket. I wish I had purchased one sooner.

*Note: Deviation from plans. Changes to the LSA shown here have not been approved by the designer.

Some tubing aft of station G-K had been previously been left out. (diagonals and tail spring socket tubing/supports) I hadn't yet decided what type of tail spring I was going to install. After some thought, I've decided to go with the LSA/Patrol round tapered tail spring. The tubing kit came with 1 x 058 socket and 1-1/8 x 049 outer reinforcement tube. There was a little slop in the fit. I'd prefer the reinforcement tube to rest directly against the socket tube. A scrap piece of 1-1/8 x 058 fit snug around the socket, so I cut out a new piece and welded the two tubes. This also gives me a little more metal to support the spring and retaining bolt. I believe the Patrol uses the thicker 058 reinforcement tube as well.

I have a temporary short tail post in place until rotisserie welding is finished. I won't be tacking all of the tubing around the tail spring mount at one time. Some pieces will be welded together on the bench, others will be tacked on at a time and fully welded. That area has some difficult places to reach with all of the tubes in place.

Here is the high temp infrared gun I found on amazon. It reads up over 2,000 degrees and was a little under $100. I haven't used it much yet, but look forward getting some time with it.

http://www.amazon.com/Taotuo-Non-con...irect=true&amp ;ref_=oh_aui_detailpage_o02_s00

*Note: Deviation from plans. Changes to the LSA shown here have not been approved by the designer.

Decided to attach the full length tail post to make welding that area easier. Adding one tube at a time and stopping to fully weld everything possible before placing the next tube. The tail area has some tight spaces, and this method is making it easier to get good welds.

Preheating with a propane torch to around 300-400 degrees. Bumped the wall thickness of the tail post to 049. This is absolutely not needed, I just wanted a little more metal in that area for my specific mission. I've added around 12 ounces of weight to the tail. The tundra tailwheel is a little heavier as well. This will help offset the extra 20lbs+ of bush tires up front.

I beveled the bottom edge of the tail post, exposing the 3/4 liner. I'll use a very sharp tip on the TIG electrode and walk in a nice full bead to fuse everything together. I preheated the tail post/liner and used the wire feed for the rosette welds. I much prefer the TIG for most applications, but once in a while a circumstance comes up that the MIG is well suited for. The Northern Industrial 135 welder I bought years back runs smooth at a very low heat setting/wire speed. The 3/8" nozzle with tapered tips are coming in very handy.

Continued to add tubes, and weld up the tail spring attach cluster. Even with adding one tube at a time and welding, those inside corners are really difficult to weld! It made me wish I had one of the tiny low clearance specialty TIG torches.

The remaining tube that runs from the front of the sprint socket to the tail post needs to be tacked and welded.