AMS Stacking System by JaxelMakerWorld: Download Free 3D Models

Jaxel

3D Printer>3D Printer Accessories

IP Report

Print Profile(11)

All

X1 Carbon

P1S

P1P

H2D

X1E

0.2mm layer, 3 walls, 5% infill

Designer

27.7 h

7 plates

4.9(967)

2 AMS Systems - Deluxe Version - 0.2mm layer, 3 walls

27.1 h

8 plates

4.9(469)

2 AMS Systems - Basic Version - 0.2mm layer, 3 walls

18.9 h

5 plates

4.8(93)

Draft 0.24mm, No Ironing, saves 3,5h on standard profile

21 h

7 plates

5.0(7)

Click to see more

Open in Bambu Studio

Boost

3792

8304

2316

2.6 k

12.8 k

11 k

Released

Description

2025-04-09: The newest version of Bambu Studio defaults to Tree Supports. This update forces normal supports in the model, inline with previous defaults. If you are printing with anything besides the designer profile, make sure your slicer is using normal supports. It has also been confirmed that this model works with the AMS2 Pro.

2025-01-08: The new December 2024 model of the AMS has circular stanches on it's sides. So I've adjusted the side brackets to fit these circular stanches. I don't have any of these new AMS models, so I've created these new brackets by eye. Please keep me informed if they work or not.

I was looking for a way to stack multiple AMS on top of each other. There were several systems here on MakerWorld, but there were a few problems with them that I didn't like. Most importantly is that they weren't actually “stacking” systems. They let you put one AMS on top of another, but they could not stack beyond that. You could not stack a third, or even a fourth AMS in a single column. So I decided to make my own completely modular system that allows you to stack as many AMS you want!

This system is sectioned off into 124mm “blocks”. There are two included wall heights, a “1-block” and a “2-block” wall. This allows you to raise your AMS to any height you want, at multiples of 124mm. If you want to simply put one AMS on top of another, you could print out walls in 3-blocks of height (2+1). This will allow enough space for you to slide the bottom AMS out in order to change filaments (like other AMS stacking systems).

However, if wanted to be able to open the bottom AMS lid without having to slide it out, you would print out walls in 4-blocks (2+2) of height. Even more customizable, if you have under-AMS drawer systems, and you needed even more height between your AMS, you could print additional blocks of height to raise the top AMS even more!

The “arms” that hold up the AMS are completely modular, and can be attached and removed at will. This has the advantage of being able to change arms without having to reprint your entire walls. So if your AMS breaks, and you buy a new one, and it turns out there is yet another new revision of the AMS, you can simply print out new arms that match the revision.

I have designed this model to be as easy and simple to print, with as little support material as possible. The included print profile has parts oriented in specific ways to minimize the chance of breakage due to lateral force, so part tension does not split at layer lines. There are several pre-defined plates:

Plate 1:
- 2x 2-block wall
  - These models have support enforcers on the arm sockets.
Plate 2:
- 2x 1-block wall
  - These models have support enforcers on the arm sockets.
Plate 3:
- 2x Rear Bracers
  - Optional: if you want to have some extra rigidity to your stack to prevent “wobble”.
  - This system uses the AMS as a bracer. You want at least two sets of bracers on your stack.
- 4x Dovetail Biscuits
  - Connect the bracers to the rear of the walls.
- 1x AMS (rear) Bracket
  - This connects the AMS to a rear bracer, if you decided to print one.
  - This model is oriented at a 45 degree angle for strength.
- 1x AMS (rear) Bracket Lock
  - Locks the rear bracket in place so the middle pin doesn't shift.
Plate 4:
- 2x AMS (side) Bracket
  - These connect the AMS to the side walls through arm sockets.
  - These models are oriented at a 45 degree angle for strength.
  - Print these out in sets of two, one for each side of the AMS.
Plate 5:
- 2x 2-block Blank
  - Purely cosmetic, so things look nicer when you have rear bracers.
  - If you don't use rear bracers, then you don't need these blanks.
- 8x Dovetail Biscuits
  - Connect the blanks to the rear of the walls.
Plate 6:
- 2x 1-block Blank
  - Purely cosmetic, so things look nicer when you have rear bracers.
  - If you don't use rear bracers, then you don't need these blanks.
- 4x Dovetail Biscuits
  - Connect the blanks to the rear of the walls.
Plate 7:
- 1x Blank (rear) Bracket
  - A connector to attach both ends of a bracer if you printed a rear bracer without an AMS.
  - This model is oriented at a 45 degree angle for strength.
- 4x Connector - Dowel
  - Optional to keep your walls together when you stack them.

I have included some additional STLs that you can peruse at your leisure, but they are not on plates.

You can find other models I have released for the X1C/AMS here:

https://makerworld.com/en/u/2811301167/collections/109412

If you appreciate my models, please consider buying me a coffee!

Comment & Rating (2316)

@Popzilla

Boosted

Print Profile

0.2mm layer, 3 walls, 5% infill

Added some extra back supports and modified bottom rails to accommodate easy slide out. It turned out to be a bit of overkill but I learned a lot in Fusion doing it.

The profile uploader has replied

@makersplayz

would you mind sharing your files?

@warkolm

Boosted

this is awesome, can you share your files?

@cyrus104

Would like to get the files for this update.

@Crabnabit

Boosted

Ok this is the best thing going for your AMS system. Super tough, amazing design, easy to print and it looks killer. He should be charging for these files. I printed two sets with the plate holder options and they look and function perfectly.

The designer has replied

@ultrajaxel

You can always buy me a coffee if you appreciate my designs! =P https://ko-fi.com/ultrajaxel *EDIT* I see you already did! Thank you for your support! I do all this stuff for fun; charging for it would require me to provide QA and I have no interest in doing that.

(Edited)

@Crabnabit

Boosted

Replying to @ultrajaxel :

I already did! if you noticed the laptop in the picture is still on your ko-fi page. thanks again.

(Edited)

@Crabnabit

Boosted

Replying to @Crabnabit :

Almost forgot, extra points for being a Milwaukee guy and a friend of 2A!

(Edited)

@bobtabin

Print Profile

0.2mm layer, 3 walls, 5% infill

This is hands down the best AMS stacking system available! The designer thought through each and every aspect with precision and ease of assembly. I recommended this to everyone!!

@wyld

I am looking for a way to stack 3 ams. Are you able to pull these out for spool swapping?

@bobtabin

Replying to @wyld :

I can take each out but it’s not optimal. I am actually making a remix of the AMS slots that will incorporate a drawer slider in them. I should have this tested this week. This way all the AMS units can stack closely like this and slide in and out independently for roll changes and such. I’ll post once I have a working solution.

@wyld

Replying to @bobtabin :

This sounds like the ideal scenario for me. That or building a shelf to mount them to the wall behind the X1C.

@Destron3D

Totally solid model. No issues printing on Sunlu matte black PLA. Everything fit well together.

@EdwinKort

Looks PLA is strong enough then.

@CullenJWebb

Replying to @EdwinKort :

The problem with PLA is sagging over time under load. PLA is absolutely strong enough for this print initially, time will tell if the support beams fail or sag in a few months.

@mmvenne

Boosted

Replying to @CullenJWebb :

Would you recomend PETG instead? I am looking to print and avoid potential issues. Thanks.

@rickceballos

Boosted

Print Profile

0.2mm layer, 3 walls, 5% infill

a little rough but amazing!!!

@Anniiluff

Boosted

Hey ☺️ Sieht super aus. Woher hast du den Aufsatz für das AMS + Druckplatten ? Liebe Grüße

@rickceballos

Boosted

Replying to @Anniiluff :

@Anniiluff if you go to the main profile of the creator you will see all of the options.

@Anniiluff

Boosted

wer Blind ist.... 🙈 Dankeschön ☺️

@gdirtpaysac1

Boosted

Print Profile

0.2mm layer, 3 walls, 5% infill

Great design and easy assembly. Printed on the H2D for the new AMS 2 Pro. Printed the side blocks laying down with negative parts for the inset areas. Modified the side blocks to fit the new AMS.

@marpicio7

What changes did you have to make to adapt it to ams2 pro?

@IslandLooter

Replying to @gdirtpaysac1 :

Can you describe what you adjusted clearance wise, was it simply a widening/resize or did you modify the model itself in another way?

@gdirtpaysac1

Boosted

Replying to @IslandLooter :

I had to adjust the model and inset the end faces 1mm and decided to chamfer as well. I think some people have gotten it to fit without modification and some have not. I was one that it didn’t not fit as is. my Ams came with the machine and had the screw holes in the sections that the current side pieces would hit.

@Daveatuniversit

as much as I like this setup. I am having to find another one to print. the way it connects is so stubborn it's like the holes have to be resized. takes a very long time to print just to find out that it does not fit together.

@a.r.maurits

Boosted

I printed this too (see review above yours), and saw this too. I think that, if I see the picture correctly, the supports in the wall blocks ain't fully taken out. I used a flathead screwdriver. edit: I just saw there's a remix of this model where someone adjusted the tolerances on these brackets holding the AMS, give that a go? I haven't personally

(Edited)

@user_2478391226

Boosted

Replying to @a.r.maurits :

I have the same issue - Where is that remix?

@a.r.maurits

Boosted

Replying to @user_2478391226 :

Look at the remixes of this model. There's only like 4 of them in total.

@cdx1967

Print Profile

0.2mm layer, 3 walls, 5% infill

I printed the entire AMS stacking system. While it may require a bit of material to do so, in my opinion it is well worth it. The system is extremally well designed with exacting tolerances. I could not be more happy with the end product. Thanks to the designer for sharing their work.

The profile uploader has replied

@ultrajaxel

Do you mind if I use your photos in the description? Also, one recommendation I can make is to change the handle on the AMS. Reducing it by 5mm is enough to let you *fully* open it. It also feels cheap to me, and I'm always afraid it's going to break when I open my AMS.

@cdx1967

Replying to @ultrajaxel :

Feel free to use the photos and thanks for the advise on the AMS handle.

@Danybba

Boosted

sehr geiles Teil, war erst skeptisch, aber sehr stabil auch über ganze drei AMS Systeme. Ich lass nen boost hier.

@user_2748788075

Boosted

Any warping or issues with the weight by going 3 level high? Did you print with PLA?

@Danybba

Boosted

Printed with ABS, but no problems

Show original

@Danybba

Boosted

Replying to @user_2748788075 :

Printed with ABS, so far so good

Show original

@MasterT88

Print Profile

0.2mm layer, 3 walls, 5% infill

It has been my biggest/longest ABS print project so far and consumed more than 1 spool of 1kg filament, but the result is absolutely worth it! I have decided to print 2x2 blocks twice, so I can easier access the lower AMS. Maybe one tip, when you assemble the printed parts, please note that the video shows the assembly of the upper AMS stack. The below AMS needs the holding clamps on the bottom.

@CrashEd

looks great in white!

@chiefpilot

Boosted

Holding clamps?

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