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Reddit mentions of SoundOriginal 2pcs Cooling Blower Fan DC 12V 0.10A~0.15A 50mmx15mm Fans for 3D Printer Humidifier Aromatherapy and Other Small Appliances Series Repair Replacement
Sentiment score: 9
Reddit mentions: 12
We found 12 Reddit mentions of SoundOriginal 2pcs Cooling Blower Fan DC 12V 0.10A~0.15A 50mmx15mm Fans for 3D Printer Humidifier Aromatherapy and Other Small Appliances Series Repair Replacement. Here are the top ones.
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- Cooling Blower Fan 12vdc 0.06A~0.15A 50mmx15mm Widely used in humidifier, aromatherapy and other small appliances series; small heat radiating communication equipment; military equipment; intelligent industrial control equipment plate cooling heat, high precision medical equipment cooling; pc cpu server cooling dissipation and so on---Repair Replacement (2Pack)
- Bearing: Pure copper bearing made in Japan. Guaranteed to continuously run 20,000 hours under normal temperature. Speed: 5100 RPM
- Total Size : 5 x 5 x 1.5cm /2" x 2" x 0.6 " (L*D*H); Outlet Size : 2 x1.5cm/0.8" x 0.6"(L*W) Cable Length : 25cm/9.8"; Mounting Spacing : 5.8cm/2.3";Weight : 26g
- This fan is made of special and premium materials for the Fugetek FG-637, 647 and FG-857 projectors. It is high temperature resistant and extremely durable.
- Brushless Fan,DC Blower Fan,Brushless DC Blower Fan,50x50x15mm Sper fan | Speed: 5100 | Total Airflow: 6.5 CFM | Air Pressure: 8.90mmH2O | Total Noise: 36.5 dBA | Bearings: Sale price $11.49 Sleeve Bearing; Sale price $14.99 Dual Ball Bearing.
Features:
Specs:
Height | 0.0003937 Inches |
Length | 1.9685 Inches |
Width | 1.9685 Inches |
It honestly depends on your budget, how much are you willing to spend?
Here is a great list of prep and upgrades you can do to bring success to your prints:
-Get Vibration Dampners: I can not express how much joy these things have brought many users. The make your machine quiet and greatly decrease ringing in your prints since they ABSORB the vibration coming from your stepper motors. You really only need Two of these for the X and Y axis however you can get another two for the Z-axis drives if you plan on doing a lot of z-hopping.
-BUY FILAMENT IN ADVANCE: get some PLA/ABS/PETG or whatever you want to try printing with. The filament you get with the printer for the most part is garbage HOWEVER I recommend dialing in those settings first then throwing on some nice filament, it'll feel soooo nice. Some commonly accepted/appreciated brands are: eSun PLA+, Hatchbox, Solutech and more
-Get a PEI sheet: Seems like you mentioned this in your post but PEI sheets eliminate the use of gluesticks/tape/hairspray and provide excelent adhesion while making it easy to remove the part after it's cool. This things like to be hot though so increase your bed temp a little at first
-Buy New Fans: The stock hotend/power unit fans are Loud, Noisy and Inefficient. I recommend getting 1 new conrol box fan, 1 new hot end fan and 1 new part blower fan.
You will need 1 40mm fan, 1 50mm fan and a Blower fan or another 40/50mm fan depending on if you print a new hot end mount like a fang.
-Tighten every screw on the printer: You would be surprised how many screws initially are lose either from prior testing or such. Also make sure to test your belt tensions on your printer whne you get it. You want everything tight BUT NOT TOO TIGHT. Give it a snug fit then let it be. Also make sure your belts are 'pluckable' like a guitar string but not tought
-Get some bearings: You may want to get a few ball bearings for when you print out a new filament holder, the stock filament holder is terrible
-Buy some fasteners: M3 bolts and nuts are commonly used on the CR-10S having spares or additional fasteners for adding on parts/printed components to your printer is awesome to have on hand
-Replace the Hotend: This can get a bit frustrating but it can be worth it. If you want you can replace the hotend with something like a volcano or an all metal hot end to print at higher temperatures. With this you can also add on autoleveling if you have the correct mount printed
-Octoprint: I am not very familiar with octoprint since I don't use it myself however I know it can run on a CR-10S. If you want look into how to install octoprint on stock firmware, I know it's pretty easy to use a raspberrypi to remote into your printer as well using octoprint.
-Squash Feet: Replacing your stock machine 'feet' with squash balls or squishy gold balls can also help absorb vibrations from your machine to your table or where it is located. This helps a bit with part quality but it's mostly to reduce the noise carried through your furniture.
-Solder on connectors: If you want you can get some pin connectors to make your fans/electronics easy to switch out depending on your material you are printing, maybe you need a strong part fan or maybe you need a weaker one. It is easy to swap out if it's using a 4pin connector.
-Make an Enclosure: What could be nicer for your printer than a stable environment. Making an enclosure for your printer can help if you live in a rough climate area or if you want to reduce the noise as well.
-Get some Handtools: I'm not sure if you have any or not but some great tools to have are a screwdriver, hexwrenches and a soldering iron depending on how much work you want to be doing on your printer.
For convenience I've added some of the parts mentioned via an Amazon link for prices. I'm not saying buy these things exactly they are just a starting point for reference:
Nima Vibration Dampners:https://www.amazon.com/Stepper-Rubber-Vibration-Dampers-Printer/dp/B073FRZTDX/
40mm Fan (Noctua Brand): https://www.amazon.com/Noctua-NF-A4x20-FLX-premium-quality-quiet/dp/B072JK9GX6/
Blower Fan (Part Fans):https://www.amazon.com/SoundOriginal-Humidifier-Aromatherapy-Appliances-Replacement/dp/B071WMHNG5/
PEI Sheet/Printer Surface:https://www.amazon.com/CCTREE-Printer-Surface-Creality-300x300mm/dp/B07543KHCT/
Squash Feet: https://www.amazon.com/PrideSports-Practice-Balls-Count-Yellow/dp/B00466W9X0/
M3 Bolts/Nuts:https://www.amazon.com/280Pcs-Grade12-9-Socket-Assortment-Storage/dp/B0742DDLQ1/
Raspberry Pi 3 for Octoprint: https://www.amazon.com/Raspberry-Pi-RASPBERRYPI3-MODB-1GB-Model-Motherboard/dp/B01CD5VC92/
Ball Bearings: https://www.amazon.com/625ZZ-Shielded-Groove-Precision-Bearings/dp/B01LWMT95S/
Hope this helps, have fun tinkering!
Here is my CR-10S.
I added the Petsfang fan fang. Added this fan to the fang.
I added these Z-Axis braces. Added these LEDs to the Z-Braces.
I'm printing on a mirror tile with a sheet of PEI bonded to it.
Last week I added the TH3D EZABL and have been encouraged by the results. It creates a Z-offset map of the build plate before every print. I can see the Z-steppers move during X-Y moves so I can tell it's working. Manual bed-leveling was working OK for smaller prints, but I could never get all 4 corners to agree with the center height. I suspect my aluminum bed plate is shaped like a Pringles chip.
I really like the Marlin Firmware over the OEM version. I don't mind not having auto-resume since I plugged my printer into a UPS system.
Right now my printer is about 20 hours into a 60-hour print of a T-Rex skull. I've been really happy with this printer! It was my first and I've been having a ball with it.
My Mini did that all the time. It's a problem with heat creep. It's getting too warm too high up which softens the plastic, allowing it to curl around. My Mini has been a workhorse for nearly a year and I think it's mostly a very solid machine, but the stock cooling setup sucks. A single 30mm fan for heatsink and layer/part cooling just doesn't cut it.
Easiest solution is to upgrade the fan. Even sticking something like a 40x10mm fan onto the original shroud with an adapter will help a little. A 50x15mm blower will do even better (they just move so much more air). Snip/strip the wire for the original fan, do the same for the new fan, then twist red to red, black to black and put some insulation on it. Doing that would fix the heat creep and also improve overall print quality since you can cool the extruded material better too.
Other solution would be to swap the hotend. Something like an E3D V6 or a decent clone will improve print quality, allow for a wider variety of materials and also not suffer from that problem since they're just designed better. Swapping hotends sounds really invasive, but it's actually pretty darn simple. Print a 2-in-1 fan duct and put one of those bigger fans on it and you'll practically never have that problem again.
Yes it is a Tevo Tarantula
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Modifications i have made:
those are all the mods i have (i think if i have any more ill edit this comment)
with these modifications and some fine tuning of the settings for my filament i can get some pretty good print quality
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Perhaps try to slow the speed down a bit, this allows your print to cool down more between layers. The layer height could cause an issue too, the larger the layer height the more plastic that needs to cool. Your probably don't need to heat your bed either (if you have a good first layer and level bed), this will keep the print warmer than it needs to be. Adding a part cooling fan with a duct could also help cool your pla quicker. Here's a thingiverse project that could work for your printer:
Semi-Circular Anet A8 Fan Duct found on #Thingiverse
You may need to buy a fan like this too:
SoundOriginal 2pcs Cooling Blower Fan DC 12V 0.15A 50mmx15mm Fans for 3d Printer
Also the nozzle size to layer height ratio could cause issues. I think the general rule of thumb is your layer height should not exceed 75% the nozzle size, so if you have a 0.4 nozzle then 0.3 should be your max layer height.
Personally I would cut the layer height in half and slow the print down to 40mm/s but crank the travel speed up to 150mm/s and see how it turns out. You can try placing a house fan pointed at your bed to help with cooling, I do this for prints with a lot of overhang.
Hope this helps.
I used these fans:
https://www.amazon.com/gp/product/B071WMHNG5/ref=oh_aui_detailpage_o07_s01?ie=UTF8&psc=1
https://www.amazon.com/gp/product/B009NQLT0M/ref=oh_aui_detailpage_o07_s01?ie=UTF8&psc=1
This soldering iron:
https://www.amazon.com/gp/product/B01MR65RJD/ref=oh_aui_detailpage_o05_s00?ie=UTF8&psc=1
The screws mentioned in the video (bought them, and used the ones that came with the printer)
And I printed off these files:
V2_5015_CR10_tevoEZPrintDuct4
v2_CR10_TevoGeneric_Base
v2_CR10-TevoWireStrain
I bought these guys. No issues so far.
https://www.amazon.com/gp/product/B071WMHNG5/ref=oh_aui_detailpage_o01_s00?ie=UTF8&psc=1
Springs:
https://smile.amazon.com/gp/product/B07M7MP2FC/
They're longer than the originals, and much stiffer. We went from having to relevel every print to never touching it once we had it dialed in.
Mirror bed:
https://www.ikea.com/us/en/p/lots-mirror-39151700/
Replaced the glass bed with one of these. Huge improvement over the original bed, especially since it meant we could swap out build plates without touching the leveling. Just unclip, remove old plate, add new plate. Wash with dish soap and water, wipe down and air dry.
Tools and parts for Petsfang:
https://smile.amazon.com/gp/product/B07R1H3Z8X/
https://smile.amazon.com/gp/product/B07DXRNYNX/
https://smile.amazon.com/gp/product/B071WMHNG5/
These and whatever M screw set floats your budget are all you need to print and install the Petsfang.
Here is my Hotend setup
If you decide to go with a regular 24v fan, you won't need the buck converter I talk about below.
Unless you have a multimeter and want to mess around with getting the voltage right (which isn't hard), grab a buck converter like this with a display and hook up the 40mm fan to it. The little gold screw is for adjusting the voltage. If you run with the Noctua I mentioned above, you will have to set that to roughly 12v.
Sooooooooo
With all that being said, just splice all the wires and solder them or attach connectors that run from the fans to the wires. You are essentially replacing the fans with the same wires from the new fans. It's a pretty easy process. I want to say you definitely should plan out how you want to organize everything beforehand. Zipties are great. If you use the buck converter because you need 12v, the input side and output side are labeled on the converter so pay attention to that.
There are 3 fans total I've replaced. I can't find the link to the last one. But you don't need to buy these. Any 12v fan that fits the right dimensions :) for sure check out the thingiverse group there is great info there.
SoundOriginal 2pcs 4010 Brushless DC Cooling Fan 12V 0.06A 40x40x10mm Speed 6800 RPM Fans for Computer case 3D Printer Humidifier and Other Small Appliances Series Repair Replacement https://www.amazon.com/dp/B0773MW3X7/ref=cm_sw_r_cp_apa_i_LjVBCbSWFDDND
SoundOriginal 2pcs Cooling Blower Fan DC 12V 0.06A~0.15A 50mmx15mm Fans for 3D Printer Humidifier Aromatherapy and Other Small Appliances Series Repair Replacement https://www.amazon.com/dp/B071WMHNG5/ref=cm_sw_r_cp_apa_i_wlVBCbQ1FPK89
E3D V6 hotend
Noctua fan for hotend cooling (I hosed the original using a heat gun to assist bed temps for ABS) https://www.amazon.com/gp/product/B009NQLT0M/ref=oh_aui_detailpage_o05_s00?ie=UTF8&psc=1
Cheap as hell 5015 2 pack part cooling blowers https://www.amazon.com/gp/product/B071WMHNG5/ref=oh_aui_detailpage_o05_s00?ie=UTF8&psc=1
This kickass heavy duty customizable mount https://www.thingiverse.com/thing:2494642 printed in PETG
I replaced my hotend with a microswiss right away and jacked up both it and the original, but learned a lesson and added plugs to everything. Hotends usually come with crimpable plugs, but they're all different so I standardized on these for fans https://www.amazon.com/gp/product/B01M5AHF0Z/ref=oh_aui_detailpage_o04_s00?ie=UTF8&psc=1
And this type (xt60) for the hotend cuz current https://www.amazon.com/Female-Connector-Housing-Silicon-Battery/dp/B073QJWVVK/ref=sr_1_5?ie=UTF8&qid=1517496061&sr=8-5&keywords=xt60+connectors
All of the plugs made my wiring kinda fat, so when you join the Bowden tube, the wiring, and the ezabl cord its just heavy enough to droop lower than the gantry and get rubbed back and forth during prints. I designed a chain link style support in blender that anchors at the extruder and velcro'd the bundle to it. It allows free xy movement but not z. It works really well but could prolly be optimized. 😃
My printer came with the bed heater wiring strain relief already printed and installed, definitely do so. Also, get a dial gauge. Seriously. Print a gantry mount for it and slip it on to use it when needed.
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Anyone got any others?