Topic: Retroplayer's SD4 Major Upgrade/Rebuild - heated enclosure
I have completely disassembled my SD4 to begin installing upgrades. One of the first upgrades was to heat the enclosure. I began by purchasing a cheap 12V 150W automotive defroster. 
The blower fan in it was loud and drew a bunch of current. Upon disassembly, I found it was just a DC motor. So, I picked up an Evercool PC system blower (brushless, bearrings) which is much quieter and actually moves quite a bit more air (42CFM.)
The heater portion of the defroster was pretty modular, so I just removed it and found that the blower opening matched up almost perfectly to blow air through the heater. I got in a little bit of a hurry and just epoxied the heater on to blower fan, but would like to go back and at least make a simple enclosure for it so it looks nice.
The design will have the fan air input facing the bottom of the printer to suck the cool air up into it and heat it. I also need to install a filter to prevent little plastic bits from getting sucked into the fan and blowing into the heater.
A quick test showed that it works pretty good. It takes about a half minute to start cranking out some decent hot air, but then it heats the air very quickly. The whole thing is relatively quiet.
It draws about 10A. A 12V digital temperature controller will monitor the air temperature in the enclosure and control my heater. Since the controller I bought can handle 10A, no SSR is needed (I bought one just in case.) I am considering options to control this from G-Code, though.
Inside the walls of the enclosure will be automotive insulation/sound deadening mats (WOW mats) to ensure the enclosure holds its temp and reduces noise from the printer.
Weather stripping and more mat will also be added to the front door to also help keep in the heat.

I have also added some 12" white CCFL lamps inside the top of the case for better lighting. These are meant for PC enclosure pimping. The wires need to be extended so that I can mount the inverter in a more convenient position. There will also be a switch to turn them on and off.

And of course, the upgrade to 3mm .05T Z axis lead screw with 0.9 degree stepper and flex coupler. I have the proper flange nut coming.
This stepper is about 1.5x taller than the original (seems all of the 0.9 degree steppers are taller.) So I had to order some M3 x 45mm socket caps screws for the stepper. The included screws weren't long enough to mount it to the bottom like the original. Being taller as well as the flex coupler will mean I will likely loose some Z working area. But the gain is higher resolution with the 0.9 degree steps and finer M3 threaded rod. Going to 1/64 stepper controllers would increase this even more.

Not shown yet is the heated bed upgrade.
It is a sandwich consisting of a MKII PCB heater, a 200mmx200mm 5mil thermal conductive pad, and a borosilicate glass surface. Connections will be made with XT60 high temperature connectors.
The MKII heater has a helpful LED to let you know when the heater is on. I am working on a light pipe to focus the LED into the bed glass. The idea is to make the glass glow when it is on (just for the cool factor.)
I am working out the modifications to switch the bed to a four point mounting and making the Z platform more rigid. I may end up completely rebuilding the Z platform to use linear bearings. One advantage to rebuilding it would be to gain back some of the space I lose with the new stepper and flex-coupler.
Stay tuned. This will probably be the most major upgrade.
2 DC-DC 60A SSRs will manage the heater bed and extruder. Each only seem to draw about 10-15A. So the 60A SSRs appear to stay fairly cool. They will be mounted to the metal with heatsink compound, though.
A 750W PC power supply will supply all the needed power with two 30A 12V rails. The advantage to using the PC supply is standard IEC cable, circuit breaker and short circuit protection built in. LED power status and the ability to switch the unit on and off. Inside the front will be a lighted pushbutton switch to power on and off.
Upcoming:
LEDs to indicate the status of the extruder and enclosure heaters
E3D V5 extruder upgrade into stock SD4 aluminum mount (may break down and buy a bulldog)
Hotend ducted fan
Pillow block bearing on Y transmission axis and bearings to replace the end bushings
Improved Y axis ends
Carriage upgrades all around with linear bearings
Spectra line replacement for belts with custom turnbuckle tensioner and swivels
Improved wire management
All electronics mounted in extension box underneath the printer
Some things I am debating/working out...
Raspberry Pi with octoprint or windows tablet for offloading printing. Leaning towards a windows tablet solution as they can picked up fairly cheaply now and all the parts to do the Rapsberry Pi thing (camera, touch screen LCD) come out pretty close in cost. Toshiba Encore Mini is $119 new!
BullDog XL and switching to bowden arrangement
Possiblly dual extruder upgrade if I go the above path
Electronics upgrade to 1/64 stepper drivers
Using what I have learned to build a new printer from scratch (might as well, I am replacing/upgrading just about everything except the chassis!
Filament mounting system
The SD4 has been fun, but my primary focus is engineering. So precision is my highest concern. The SD4 is a great printer for trinkets and such - no complaints there. But trying to print precise and repeatable parts has been a pain with this printer.
Open to suggestions. I plan to write up all upgrades as well as I can so others can follow. I will have parts lists as well.
I can spend extra detail on anything others might be interested in if you let me know. I am not great at taking pictures as I go, but if I know someone is interested in something specific, I can make sure to take more pictures and/or videos.
My goal is to finish all the upgrades by the end of the year and spend next year building a printer from scratch based on what I learn from this. One of the fears I had before starting this was running into a portion of the upgrade and needing to print custom parts with the printer disassembled. So I have spent quite a bit of time trying to pre-plan as much as possible.
Anyway, let me know if any of the above upgrades interests you the most so I can be sure to give it special attention while documenting it. And any suggestions for upgrades I didn't mention that you might like to see are appreciated.















