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rl180

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About rl180

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    Northern Virginia

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    Richard

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  1. Back in August life threw me an unexpected curve which required me to shelve this project for a bit. But as life would have it, then tossed me another curve to help bring back balance. I haven't forgotten about this project. I'll continue working on it soon.... I hope.
  2. BARREL JACKET BASE I decided to start with the right side of the barrel jacket base, which has a rather smooth and rounded shapes, verse the left side with straight lines and mechanical levers to unlock the barrel. The rounded part will be based on 1/2 inch PVC pipe about 2.5 inches in length. On the actual MG-34, this part appears to be a hinge used to flip the barrel jacket out of the way. The front side side of the hinge seems to be open on several of the reference pictures I used. So I decided to use a hex nut that was a snug fit. The back side of the hinge is smooth and solid. For now I started with plugging the hole with Apoxie Sculpt. Next I needed a flat base where the hinge is to be mounted on. I used to pieces of scrap PVC foam board and used plenty of crazy glue and expanding foam glue to hold in place. Then packed in the back and nearby openings with Apoxie Sculpt. The hinge was tacked in place with crazy glue, globs of expanding foam glue and the packed smooth with more Apoxie Sculpt. Then added several layers building up the general shape needed, just eyeballing it for now. This is unsanded rough early stage, just used my fingers to smooth it out with excess water (spray bottle) to make it less sticky. Used some scrap PVC foam board to squish in the sides where the face need to be flatter. The back side of the hinge is closed of and flat with a slight bevel. Again no sanded, this is just done with fingers so far. Next I'll be sanding and shaping to get it a bit better before moving onto the other side.
  3. I haven't posted a picture in a while, been trying to figure out how to tackle the Barrel Jacket Base. Been toying with making it out of balsa wood (easy to work with), but I figure I can keep using the same materials I have been using. Then it comes down to using Bondo or Apoxie Sculpt .. both are two part epoxies. Here are the two major sections I have been working on put together while I took some measurements to start working on the Barrel Jacket Base. I'm going to go with PVC pipe and Apoxie Sculpt. The Bondo is just to sticky to work with your hands and smells horrible.
  4. Thanks for the kind words. Next is the Barrel Jacket base (where the Barrel Jacket screws into) which I have been delaying working on this as I think that is some pretty complicated sculpting work to make out of epoxy or perhaps Bondo. I don't even have good measurements for size and proportions yet. Have to play around with adding some wood, plastic or maybe even more Lego bricks.. lol as some filler. Needs to be strong but not add too much weight.
  5. UPPER RECEIVER / FEED COVER - Continued Next I wanted to add the front grip (two bulbous metal protrusions) on the feed cover. I wasted a week or two trying to come up with an idea on how to make them and keep them fairly symmetrical. If I had a 3D printer, I probably would have just done that and be done with it.... but I don't. I tried looking at bottle of soda bottles to see if the curved plastic could be used as a mold. I even looked at melting plastic to make my own molds. Then I had an idea... don't laugh. LEGO bricks. I crazy glued the parts together and started sanding them down with my Dremel to start getting the basic shape in place. Turns out LEGO bricks sand down pretty well. Then I filled in the remaining holes with Apoxie Sculpt and kept working on sanding the shape. To glue these onto the feed cover, I used a combination of crazy glue gel on the high parts which make direct contact and Gorilla Glue (expanding foam glue) for the low spots. The expanding foam filled in nicely and makes a strong bond. Then some more Apoxie Sculpt was used to fill in the gap between the LEGO bricks and feed cover. After that a few coats of silver and black paint to match. The longer right side front grip completed. The shorter left side front grip against the ejector port cover. The two of them together add to the overall silhouette of the DLT-19.
  6. Not sure what this is called, but it is the next thing I wanted to make. It's part of the Upper Receiver and the ejector port cover is wedged below it. Figured it was another opportunity to make it out of PVC Foam Board. The exact shape and dimensions are all just eye-balled and I think mine is slightly long, as my ejector port cover is a bit long. Looking at pictures I estimated the originals to be about 80cm and I made mine 90cm. So the plan is to have the center slightly elongated but keep the ends as correct as possible. I drew lines on where I expected to make cuts. Again goal was to keep the left and right symmetrical. Glued the parts together and some lines cut in and I removed the center. The left and right ends and hollow inside parts I packed with Apoxie Sculpt for strength and tried to fill in the top seam. Tossed on some paint and added a little dark blue it parts of it... just because I wanted to. With several of the MG-34 reference pictures these parts were a different darker color. This is zoomed in with camera flash on which makes it brighter than it really is. Another view of the top profile with the new gadget just resting on top of the ejector port. I won't mount it until it until later.
  7. UPPER RECEIVER - Continued The black styrene covering has been completed on the upper receiver and Apoxie Sculpt has been applied to all the edges to smooth things over. Three Acco 5/16 inch (head diameter) brass platted fasteners were added to the front. They are a little flatter than I would like, and perhaps a little to wide but reasonably close enough. To make the larger bump towards the back... I tired several things. What I determined to work best for my needs was a 1/8 inch (625ml) teaspoon with a little bit of plastic wrap to keep the Apoxie Sculpt from sticking to the metal. Some examples of the little bumps I created. They were sanded smooth and bottom sanded flat, and simply picked the one which turned out best. The bump was attached with excessive Gorilla crazy glue to help fill in the gap around the base of it. A few more layers of paint will be applied and some more sanding to smooth it down a little, but overall the shape of the upper receiver came out pretty good. It's starting to feel pretty good in the hand and looking like a MG-34. Still have to work on the forward hinge. I haven't been able to curl PVC foam board that much without breaking it. Need to keep working on other ideas.
  8. UPPER RECEIVER - Continued The upper receiver hasn't had any attention for a while, but now it is the area to focus on as it is so important to the silhouette and visual detail of the DLT-19. I started by sanding down rear part of the upper receiver to extend the forward slope further. Doing so did some damage but nothing that can't be fixed. A new surface was added to the upper receiver for a clean working surface. It does not go to the edge as they will be filled in with epoxy later on for a rounded edge. In hind sight it was a waste to extend the black styrene covering so far forward as most if it will get covered with additional layers. The top has the roundish cap with a few bumps on it. I'm going to make this out of a few layers of PVC foam board. This is a pretty good first cut, I'll need a few more layers to build up the height. This is now 3 layers deep, two layers with an oval cutout and the lower bottom plate. For the hinged, I decided to make that out of some wood. I have no such wood working skills, so this came out pretty decent for me. Obviously the hinge will not be functional but will still need a metal pin and such. Here it is glued in place. A small wedge was added under the rear part to give it a slight upward angle. The underside gap is filled expanding foam glue, waiting for it to cure. Apoxie Sculpt was used to smooth out the edges of the oval and will be added later to fill in the lower part once the glue cures.
  9. LOWER RECEIVER - Continued A while back I built a small shelf for the feed tray. However I estimated the height of the feed tray to low, so I needed to build a new shelf a little higher. I had to make it in a way that could fit inside the existing opening as well. Remember that my design has the inner gun barrel going all the way though the body for support (I don't want the outer gun barrel attachment as a weak point). So the shelf is just a little stub. Just enough so something can be seen through the opening. It was tacked in place with some crazy glue, then used Gorilla foam glue for a good mechnical bond on the inside to attach it to the body and preexisting shelf. Once the shelf was in place, a section of black styrene covering was added to complete the lower horizonal line of the lower receiver. Not going to call this section fully completed as some additional details need to be added later.
  10. wow.... just beautiful. Well done. These have to be the nicest ones being made.
  11. REAR RECEIVER - Completed To complete the rear receiver I need to create this locking latch slider thing. I assume this is what keeps the upper and lower receiver closed. Loosen the large screw, slide the plate forward and the upper receiver / feed plate can be lifted up. The first issue to tackle is how to come up with a knurled look, the metallic cross-hatching to give grip on the side of the slider. There are special tools you can buy that do this. Being a poor mans build I'm not going to buy a special purpose tool for this. I saw the amazing work that Tig70 did in his build thread by manually creating every line with a triangular file... that is beyond my patience and skill set. That was appropriate for his build since its woodwork. My build is plastic, PVC and epoxy so I get to cheat and take an easy way out making an impression with Apoxie Sculpt. Simply mix a little Apoxie Sculpt up, squish flat and roll over it the knurled handle of a near by tool. The water on Apoxie Sculpt makes it less sticky and prevents it from just sticking to the tool and the underlying plastic plate. I know this is actually the opposite of what is really needed, this will produce raised raised lines with diamond shape depressions. It's a negative, you would then use this to make another print to get the positive. I'm not going to worry about that... it has the knurled look. The Apoxie Sculpt was rough cut while wet over-sized and will be trimmed down to size once curred. To make the top part of the latch, used PVC foam board with a little bump from a US quarter. Cut it out with a sharp blade and then sand all the edges smooth to give it a worn down look. Parts are mounted in place using Gorilla Glue gel. A little more Apoxie Sculpt will be used to make the rounded over edge and sanded smooth. To make the screw head and two little bumps, I rummaged through my junk draws and wife's hobby stuff and found brass colored button and 2 small tacks. I probably should have asked before taking them. LOL. I filled in the button holes with some more Apoxie Sculpt and sanded flat. Then used a thin bladed coping saw to make the slit on top and used my typical dry brushing between silver and black. Side profile.
  12. REAR RECEIVER In continuing to square off the rear receiver and putting a black styrene covering on it, the other lower side and top covering have been added. Gaps have been filled in with Apoxie Sculpt-two part epoxy. The side coverings are being put on in two parts to give the horizontal seam of the upper and lower receiver parts laying on top of each other. The top trim of the upper receiver has been added, the edges along the top filled in with Apoxie Sculpt and rounded over smooth. All the Apoxie Sculpt has been painted over in silver. The rear receiver has it's initial painting and little bit of scuff to the black to reveal the underlying metallic color. Mounted to the main gun body for a test fitting to make sure it still tight and identify any unwanted gaps.
  13. COCKING HANDLE & SLIDER - Completed I was able to install the newly created cocking handle track and slider. This shows the cocking handle unscrewed and removed. Just the base of the cocking handle remains. I like this a lot better than my previous track. If I would have thought about this sooner, I would have tried to install it inside the gun body and make it out of something a little more durable than PVC board. A metal track would have been better. I've slid it back and forth a hundreds times, no issues, still slides and is not jamming. Now that this is out of the way, I can get back to putting black styrene covering to get smooth flat side covering.
  14. COCKING HANDLE & SLIDER - Revisited When I flipped my gun over to start working on the styrene covering, I was not happy with how the existing metal slider and cocking handle was sitting. There was just too much wobble and the handle limped downward most of the time from the extra play the slider had in its track. So I removed it all, and decided to try something else. Unfortunately, with Spring around the corner, the "Honey Due List" was also handed down from my wife which greatly reduced the time I have to spend on this. So the basis of my new slider and cocking handle idea were around these 3 parts. A platform for the slider is based on PVC foam board. The base of the cocking handle is a flat plastic part of a drywall anchor and a screw that goes with it. I added a little bit of black styrene for the channel of the slider. This will prevent any white of the PVC board from showing through from friction and scratches. I also cut down the drywall plastic anchor to be just the base part. Then the metal handle (flashlight body) attachment ring was cut in half to reduce how much it sticks out beyond the body of the DLT-19. The plastic part shown was from the flashlight originally, I think it was from the push button assembly at the back of the handle. I'm going to re-purpose it for part of the attachment base. The track was then built up slightly for a snug fit. The rectangular shape of the base should keep it in the track and not spin or rotate in place. The other side of the track was added, it slides back and forth with enough friction to keep it in place and the glue bond of the PVC is strong enough that I can't get the part to pop out. This likely won't survive a drop on the floor, but I think it would be pretty easy to fix if that happens. One end is open as the DLT-19 body itself will block that side and that side is where the existing Neodymium Super Magnet discs is which will help hold the metal handle in place as well. The plastic button cap was trimmed down a little and a small hole drilled into it to allow the screw to tap itself in the plastic. It was then inserted into the metal base ring that was cut in half from flashlight handle. The wall anchor screw length was cut down to fit. Then simply thread in the screw to hold it all together. This is what will remain on the DLT-19. The handle simply screws on and off as needed for storage. The base ring can be turned by hand to adjust how close to the track slider it will be. I expect this white PVC board to be covered by black styrene as well to stop any white scratches from showing due to friction of the handle. Now to figure out how to mount it securely into the existing location of the old metal sliding track....
  15. And you have to work out postage and customs issues. yuk.
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