My first vacuum former I built off an instructable which address I will include. It did work but it was rather cumbersome and the weatherstripping gasket wore easily. I later found a version on Amazon which was monetized and had used elements of the previous design. Unfortunately the units are rather pricey and they're extremely simple to make. If you'd like a metal table then by all means pay the cash but if you don't an MDF version is extremely cheap and anyone can make it.
We'll start with the frames. I used 5/16"x3/4" sized aluminum window frame to pinch a sheet of plastic between to frames I made to fit my 14"x18" wooden frame with binder clips. Simply make a miter-cut in the stock at the desired length and insert the frame corner brace (or "clip") to make a structural and rigid connection. Most average home builder stores will only carry the plastic clips.You need to find the metal ones online or from a local window/glass supply or tradesman.
Building the box is very simple, you just need to make sure of two things:
1. Your dimensions make sense with the pieces you have.
2. It's airtight.
To make the box airtight glue your connections liberally and the seal with a silicone adhesive. Use a PVC glue to adhere the piping and wrap connections in electrical tape for good measure.
I built the frame from 3" wide strips of 3/4" ply to be 14"x18". I added a crossbeam to create enough depth for the pipe elbow to fit into and it also adds some structural stability. When drilling the holes for the piping the pieces you're using will dictate the size and placement of the holes.
Once you have your frame you can create a gasket by cutting a rounded rectangle out of a 14x18" piece of 1/2" plywood preferably using a band or scroll saw but a jig saw will work too with an uglier cut. The gasket creates a void underneath the table plate where air can be channeled to a central point from all the small feeder holes in the platen. After drilling the hole where the pipe elbow will be inserted you'll make the table plate to be glued on top of it.
The table plate is made from a 12"x16" piece of 1/4" MDF. Use a router to round-over the top edge and corner edge of the platen so that they do not rupture the plastic. Draw out a grid and drill an array of 1/8" holes space around 1" apart which fall inside of the gasket. Once you've given it a sanding you can glue it to the center of the gasket - make sure this seal is airtight.
After the glue has dried and you've sealed the connection you can now connect the table plate and gasket to the frame. I used lots of glue and some finishing nails which were sunk below the surface. Once dried you can insert the piping and seal all the internal connections with silicone adhesive and electrical tape. Adding some aluminum "angle-iron" to act as guides is very helpful when bringing down your hot sheet of plastic.
Thats all there is too it. Operation is simple, you plug a shop vac hose into the spout and warm up the oven. (some commercial vacuums are strong enough to pull the air but check the ratings on what you can find in a thrift store) Place the mold (or "positive") on the center of the board and raise it slightly if necessary to the form. Pinch the plastic between the frames with a lot of connections and warm it in the oven. Depending on the plastic you use there will be different melting points. In generally they're between 250 and 300 degrees. I just use two mugs to hold up the frames in the oven. You then wait for the plastic to start sagging and then you're ready to go. Simply turn on the vacuum, and quickly remove the frames (with gloves of course) and lower it over your mold and down to the base where it will create a seal and suck the plastic over your positive.
Some tips: I have used PE, HDPE and HIPS and all worked relatively well. HDPE holds heat longer than PE which can be an advantage or a disadvantage. HIPS is great but the thinner sheets can become quite brittle - you'll need a strong vacuum to pull the thicker stuff. Most plastics I use with this setup are between .020" and .0625". Beware of undercuts - if you have any you will not be able to remove the positive easily or at all. Under the ball of the foot you can see an undercut and the undesirable effects it had on the cast not to mention its removal. Common sense would also suggest that you keep a tray beneath the level your heating the plastic on in the oven to avoid a mess if you happen to completely melt the sheet inadvertently. (Don't do that.)
There's lots of hobby sights that will tell you how to troubleshoot unwanted results.... like this one:
http://www.rcuniverse.com/forum/m_5086453/anchors_5086453/mpage_1/key_/anchor/tm.htm
To view the designs mentioned at the beginning of this post:
http://www.instructables.com/id/Make-a-good,-cheap,-upgradeable-sheet-plastic-vacu/
http://www.amazon.com/x18-Vacuum-Form-Machine-Prototype/dp/B001N0K43E/ref=sr_1_2?ie=UTF8&s=hi&qid=1308778860&sr=8-2
Amalgamized
A periodic documentation of the reclamation of manufacturing tools by DIY designers and craftsmen. Additionally featuring design events, digital fabrication and analog innovation.
Wednesday, June 22, 2011
Thursday, June 16, 2011
Columbia University and i-materialise explore 3D printing!
This was a highlight of the ICFF event for me and it's been somewhat difficult to find many pictures of the projects afterward. Much of the experiments taking place had to do with kinetics or mechanical connections while a few others took their own trajectory.
Highlights from the 2011 International Contemporary Furniture Fair ICFF NY
Unfortunately the 2011 ICFF event in NY wasn't a hot bed of innovation but there were some nice ideas strewn about and it's a great experience to talk casually with the designers about their practice. Shapeways and i-materialise both had interesting exhibits regarding experimentation in rapid prototyping (3D Printing) that I will be doing a follow up post on shortly.
Welcome wayward travelers
We're brand new so we're glad you found us! Amalgamized is envisioned primarily as a resource for those interested in bringing manufacturing tools into the work shop. We'll also be doing occasional features on design events as well as specialized topics like experimental materials, digital fabrication, modular structures craft innovation etc. We're starting simple with a sparse but relevant approach.
If you you're a DIY designer, innovative craftsmen, artistic engineer or an otherwise confused individual and have something you'd like featured or simply a good resource to share we'd love to hear from you.
Our First post will be photo documentation with some short comments on the International Contemporary Furniture Fair, ICFF, which we attended in New York, NY this 2011.
Coming soon will be a feature on a cheap and sleek $25 DIY vacuum forming machine that anyone can build. This will be followed shortly therafter by a note on David 3D laser scanners as well as a document of the creation of a DIY rotational casting device, (roto-mold). Far off in the future we see digital ceramics, 3D printing experiments and coffee can foundries so add us to your RSS feed so you don't miss out!
If you you're a DIY designer, innovative craftsmen, artistic engineer or an otherwise confused individual and have something you'd like featured or simply a good resource to share we'd love to hear from you.
Our First post will be photo documentation with some short comments on the International Contemporary Furniture Fair, ICFF, which we attended in New York, NY this 2011.
Coming soon will be a feature on a cheap and sleek $25 DIY vacuum forming machine that anyone can build. This will be followed shortly therafter by a note on David 3D laser scanners as well as a document of the creation of a DIY rotational casting device, (roto-mold). Far off in the future we see digital ceramics, 3D printing experiments and coffee can foundries so add us to your RSS feed so you don't miss out!
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