The Tool Case Project Part 1

Tool Organising, or The Adam Savage Obsession – TOOL CASES 

Okay I admit it. I watched Adam and realised that my workshop was hopeless – I don't actually have a workshop in fact. I need a space that can be organised as a workshop but more than that, it needs places for all of the tools I use and they must be organised so I can find them. I have suffered though moving house and as a result everything shop was packed in cardboard boxes and shoved in a tin shed until now. Then I decided to start making things again. I ended up buying tools I already had again because I didn't even know what I had, and even if I remembered it, I couldn't find it: a nightmare.

I won't get this problem again if I make my tool boxes well and so this is that project.

This is not a new idea for me either: I have been saving some cases from old video equipment I found years ago for exactly this purpose – they are mainly plywood and even if I only use the metal corner bits and hinges it will have been worth it.

I looked at buying tool cases but there is nothing that meets my needs – either they are impractical, too expensive or both. Lots of blowmould plastic: Nope. I will be getting some organisers for parts like nuts & bolts but none of the tool cases I have seen make sense to me.

I don't really want any big freestanding tools like a sawbench since I don't expect to do that much sawing – and I would rather find or make some sort of compact, folding alternative instead – I know I will have to move house again sometime and if any item is too big it will just be a burden, and don't even think about the cost. Those things are expensive.

DESIGN

I first set out some categories for my tools so that I could decide how many cases and what for:

I came up with six : (1) marking, (2) drill/tap, (3)saw/file, (4)join/clamp, (5)electrical and (6)paint.

As I learned from Adam, the best cases can either be sat at the back of the workbench for easy access or they become the workbench itself – this I intend to do for the electrical case. 

I also want to avoid making layered cases where you need to open layers to get at the tools behind: that means you can't see what you have got. Everything should be visible at a glance.

The cases must also be hand movable which limits the weight, so I might need to split the power tools up. 

It is also a good idea if heavier items should be lower down in the case for stability.

I expect to make them mostly out of plywood so I will need a saw with straight guides for that: not sure exactly how that will be done yet. I may need to buy a new tool for this !

There is one more issue to mention: expansion. I expect to be getting more tools as time passes or replacing tools that fail, so there must be some room for expansion and ways to modify or replace the tool clamps as needs arise, so the cases should be like this: there should be a solid main case body and then tool clamps screwed or otherwise removably attached to that.

As always I begin the design phase by measuring and modelling in Blender to get an idea of how things will be packed in and so forth.

Here are the two basic design ideas as described:

Basic case

Case/bench combination

 Yep, that means I now have a whole heap of projects to keep me busy every spare moment  - and this one could stall the others for weeks  - but it has  very good reasons why. I don't ever want to dig through piles of rusty tools for a chuck key again. It's kind of a metaproject: all others will benefit from it.  

Special thanks to Adam Savage for reminding me of my maker roots. Maybe other people have their ethnicity or something to identify themselves with, but me? I'm an engineer, a maker.

The Cabinet Part 3

Plans have changed again. Having swam through a lot of 3D printing vids and blogs I realised that I really wanted to be able to print flexible and soft materials for things like tyres,seals etc.

Actually I got right into the detail and ended up with three basic specifications for Filament type (FDM) 3D Printing machines:

First, GP/ Decorative – materials are not particularly strong or durable but the models are high quality finish. Of course, this machine could also be used for general purpose printing

Next, Strong - this one needs a high temp chamber and temperature control, materials such as PE that can be used in high strength applications – but this needs a lot of specialised equipment to do properly. Prints must be gradually cooled after printing to keep their shape and there are a lot of technical challenges.This could get very expensive.

Third, Flexible – printing soft and flexible materials requires a direct drive printing head (the filament drive is attached to the hot end) and this is not common since it makes the printer head heavier and thus the machinery must do more work to move it around and the process of printing can be slowed down by this. This is why I suggest a specific machine just for this type of material. 

Actually, I really like the idea of a dual head machine for flexible materials since then you could use PVA or something similar for support material – but that is whole new machine again.

I am not going to start building a “Strong” machine: that is well beyond my current needs and abilities due to not having the tools or workshop – but I can certainly get the other two, which led me to buy a second machine with direct drive extruder – the Sidewinder X1. This machine has about the same build volume as the CR10S and good metal construction but it is a lot cheaper.

It also does not have auto bed levelling - but I will see about that - it may be possible to add it later.

Middle space showing 10mm holes for the mid panel nuts.

To get the middle panels on it was necessary to drill holes big enough to get the nuts through and then into the slots in the extrusion bars. The alternative was to try and attach all three side panels together then slot them in as one part (not an easy job) and do up the bolts – but then if you want to take a panel off later all three must come off. It would also require very accurate hole drilling and my hand work is good, but maybe not that good.

Since the design has already changed from my original and the cut panels cost so much I hope to avoid buying more – so the door for the lower chamber had to be made from two parts, joined with a strip. I also fitted the solid feet at the corners this weekend and moved the wheels inside of them using bars to support them – this is because the cabinet needs to very solid. This need drove me to order more parts and I discovered that 45 and 135 degree brackets are available so these will be used to add three diagonal braces to the bottom when they arrive. There is only one bolt hole so maybe I will drill extra bolt holes – but regardless, this will add stiffness. 

Base showing wheels and feet, which can be raised with a spanner.

When taking these photos I put the lower door on where it is intended to mount and discovered that it won't fit flat: the metal right-angle brackets collide with the nuts on the inside of the door. This can be fixed with countersunk bolts but it means using a 45 degree chamfer drill on the plexiglass. Cutting it was bad enough – my first cut was cracked in five places. Using the right tools makes all the difference - well, that and being patient. I will need to do a test drilling or two.

Cabinet redesign with diagonal braces

View from the other side showing air duct system

 The lower chamber will now house the second printer so there is also an air duct for this area too. 

I also have a window exhaust duct designed exactly to fit my window and go around the blinds - but of course it needs to be 3D printed !

Window exhaust duct

The aluminium extrusion building system used here was all bought from eBay – all of the bits from different suppliers, and I am impressed by it: there are a wide range of sizes of the extrusions, the nuts and bolts, brackets and various other parts too. I found a store that precut the bars to my preferred lengths and a supplier for the panels that did the same, and good thing it was too: I don't have the equipment to do these cuts myself – well, not as neatly as the suppliers. Because the parts are all fixed in the slots, you can adjust their positions as required which is great for flexible projects like this – and all of the frame parts can be reused later if desired. Nearly all of the 3D Printers I have seen are made of this extrusion although they do drill and tap holes in it for solid fixings as well. I have even seen factory techs in China building automation equipment from this same system. 

There still as lot to do to get it finished - but progress is happening even if I only have about one day a week to work on it. There is also the enforced delay of waiting for ordered parts to arrive - but then there is an advantage to working this way: I have a lot of time to think about everything - as you can see, the design has already changed in major ways. I have also simplified the design since it is then more flexible.

Finally a special tip of my hat to . . . . . Microsoft. The latest update of Windows 10 includes a screen clip tool that works right – just press Win-Shift-S and you can snapshot your screen just like on a Mac. Ooop. Didn't mean to say that – well, since Apple has left us creative folks out by pricing the new Mac Pro so astronomically that only the elite can afford one (when it eventually arrives) we must make do - except that actually it's not at all bad. See my previous posts for more about going from Mac OSX to Windows 10 if you are interested.  It's actually better in significant ways.

The Cabinet Part 2

Design Ideas

I have been working on cabinet modifications in spare time – easy to do onscreen, a lot more work in real.

To print well in stronger materials you need to be able to get the build area warm but you also need to keep the electronics cool - and there is also a need to be able to vent the build area to outside or a filter, so this means ideally you need four areas:

1. build area with a vent valve
2. circuitry area with cooling airflow
3. intake area
4. exhaust area with extractor fan
   
   So here is the idea modelled: 
   
   
   
   

There is also a change I made here where I put the filament roll directly under the build area – it just seemed natural to do it that way. This means the bottom of the cabinet is empty for now but then the whole thing may be too shaky for normal operation  -  3D printing is dependant on having a very stable surface to operate well – any shake in the table or bench the printer rests on will result in vibrations of the print head and this produces “ghosting” - rippled print surfaces.

I will only find out how good the printing is when it is actually running.

I have identified the air intakes and exhausts on the CR10S Pro case and thus located inflow cooling ducts at these two points. This means a lot of small pieces glued together and I am still unsure how well they would seal onto the CR10S case – ( how airtight do they need to be? ) and also the various parts need to be accessible and I am not certain how practical this would all be. 

I put the second intake where the power cord goes into the case so that covers one matter but there is still the question of just how to remove or replace the surrounding parts around the printer when things need to be looked at – for example, at the moment there is no way to access the USB port on the printer when it is in the cabinet and the power switch will have to be left on and turned on/off at either the power board or a wall socket. I might add a door just where the power board is located which would also have a cutout for the power cord. The power board will also provide for adding lights and any other powered extras I might add later. 

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At some point it becomes tempting to pull the whole printer apart and get rid of the metal case and fix the frame inside the cabinet, thus all electronics can be in their own area with isolated cooling. The trouble with this kind of thing is that I can easily progress to tossing the whole thing out and building a completely new whizz-bang machine with better, more expensive parts and I am in danger of starting a big project I may never finish . . . . 

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Stage 1, or what will definitely be done for starting the machine and getting it running, is completing the upper enclosed cabinet with door and fume extractor. This means cutting a hole in the floor of the chamber and that lead me to buy some new bars of 2020 to support the printer more directly: there is some question about how well the panel sheets will take weight when they get warm and I don't want to cut a hole in the back wall only to need to patch it up later. 

Stage 2 – Getting the printer fully upgrade with all of the extras I have already bought

Stage 3 - adding the Octopi remote controller, lights and camera

Stage 4 - improving the cabinet, including relocating the spool holder and addingthe air ductwork.

Seen in my local supermarket #2: What exactly is "creme"?

The Cabinet Part 1

The bare frame

lower corners showing brackets

Here is the frame complete. I am very happy with this, the parts were all easy to get and quite cheap considering and it only required the correct tool tips to bolt the whole thing together.

Actually if you wanted to you could make anything out of 2020 extrusion and brackets, it is very strong and easy to assemble. 

Okay, it was not all easy: the corner brackets and the nuts I bought to attach the panels are special locknuts that can be dropped into the slots in the 2020 then when turned, the nut is supposed to twist and thus lock into the slots. There is just one problem: they don't always do that. If the nut is too far up the thread to twist or if the bolt hole is not exactly in line with the slot, the nut can just sit there and not twist at all. In the corner brackets you could either mark a dot on the end of the bolt or even cut a screwdriver slot into it to not only make sure the other end locks but turn it if it didn't, but for the panels I had to make do with trial and error, pulling the panels to see if they were locked on. 

Locknut and M5 bolt

The panels were a little more difficult: although the frame cost about $200 the panels were much more expensive. This was a surprise to me. 

For a cabinet that could take a lot of heat I would have needed metal plates and glass windows but that seemed to be too hard and not worth it since the hassle of fitting glass doors with handles and hinges alone would be a pain. I asked one supplier about 45 degree temperature and acrylic panels and he replied that glass and metal would be the only option. I ended up going to another supplier for panels made of plastic coated in alu and I hope it will be good because along with cutting the panels it all came to $450 which is serious money. 

I don't have any way to cut the full size panels myself so it wasn't really a choice – I just liked the metal coated panels better than plain plastic. I think they will last better.

I actually bought a lot more connecting parts than needed, that seems to be the norm when I am working on a project though. Maybe they will end up getting used later.

The project does seem to be expanding though.

I fixed most of the panels to the cabinet today and put wheels on. They make it much easier to work on. I noticed that the panels need fixing about every 250 mm apart or they will rattle.

Raspberry Pi with cooler in fornt of my keyboard for scale: it is tiny!

This is fine apart from the area where panels overlap: I designed the middle area so that the panels could be removed easily since that is where the most complicated bits will be housed: the power boards, raspberry pi and the air ducting. Since the frame is only 2020 there is one slot for nuts so at the moment the idea is to drill 10 mm holes in the inner panels then put the bolts and nuts on the outer panel so the nut passes right through the 10 mm hole. The hard part is drilling 10mm holes in the panels without wrecking them: the metal coated plastic maybe okay but the acrylic clear stuff has a real danger of cracking. Apparently the idea is to drill gradually bigger holes . The holes also are only 10 mm in from the edge so after drilled there will be 5 mm of edge left. I will have to test drill some scrap first to see how well it turns out.

Cabinet with wheels and some panels

I got some 38 mm wheels to make the cabinet more practical and I was pleased to discover that the bolt holes on them fit the flat plates I already had for the bottoms of the corners.

 This is where the filament holder is going for now - it stil needs a 90 degree bender to feed correctly and this is intended to be temporary until I have the filament store underneath done but it is another example of how handy this extrusion system is - since the CR10S frame is also made of extrusion it was easy to fit and it's always adjustable.

A major reason I got the CR10S Pro is that it has automatic bed levelling out of the box.  If there is one thing you do not want to spend time doing it is levelling your printer bed. This auto leelling depends on a sensor stached to the print head that detects the bed very accurately. The CR10S comes with a capacitive sensor and some folks online have compained about it being inconsistent especially when delaing with hot build plates or other variables.  I am also concerned because I am going to replace my build plate with the magnetically "stuck" WhamBam plate - so my answer is to get the reputedly more reliable BLTouch sensor which has a small retractable pin that literally touches the bed to detect it. Tehre is also a video showing how to fit it and a special firmware version available for y specific model of printer which made it a sure thing for me. 

 I bought a BLTouch sensor from 3D Printing Canada who also have a good video on how to fit it to a CR10S Pro – but it was $137. 

There was supposed to be a local firm selling them but they are now calling themselves “Wombot” and selling 3D printers draped in Aussie flags - and they are covering their machines with the same metal/plastic sandwich panels as my cabinet. Their cheapest machine starts at $5k and I am curious to see a review of their products since that seems way more expensive than anything else: perhaps they are aiming for the “professional market” but I can't see that as being viable. Still, what do I know? Perhaps their support will be fabulous and they will outsell all other machines locally. I can't see that happenning myself since the market for serious 3D printers is limited and the big guys (Stratasys etc.) have it pretty much stitched up. Is there a market for more average, small fab machines costing that much? It seems to me that I have seen this all before.

So there it is: What are people doing with their 3D Printers? Making Cosplay Ironmek (Don't wanna get sued here) outfits?  I'm still not exactly sure what I will be doing with my machine once it is running smoothly,  but I have a few ideas. 
All suggestions welcome.

A New Project: 3D Printing

Which Machine?

Previously I thought about getting a Taz 6 but they come at $2500+ and for what you get, that is a lousy deal: major parts are 3D printed plastic and I would rather have metal where possible. Also the slight size advantage is not important to me for a first machine – if I move to a bigger format machine later I will go a lot bigger than that.

Better is the CR10S Pro which at @ $1000 has much better construction quality.

It may take some mods to bring it up to full standard but that is okay there is plenty of info on how to do that online and the parts are cheap and available.

For ABS you need an enclosure and a ventilation system to outside or the room will stink of plastic. (actually I suspect this will be needed regardless of the filament)

Also ABS is not UV resistant - get ASA instead for that, or Carbon X (need a stronger print head for this but the results: strong parts! That's what I am after. The exact material is less important than the strength and durability of the parts.

Originally I thought of getting a big printer but there are two reasons why that is a bad idea, at least to start out: first, 3D printing takes time. The bigger the print, the longer it takes – and if anything goes wrong, that time is probably wasted.
By instead making a large model from several smaller parts, a failure in any one part only means you need to reprint that part , not the whole thing. Also, big printers are very expensive and I have yet to find good uses for the one I have (but I am sure that these will appear).

I bought the CR0-10S Pro for a total of $907 AU delivered.

It came very quickly (within 3 days). I opened the box and prepared to assemble it by doing up the four M5 screws but there was a slight problem: one of the threads had a burr on it that meant the screw wouldn't thread. I bought a set of taps and dies for a whopping $30 and it si taking a week for them to arrive – funny when the printer was so fast getting here.

I have watched several YouTube vids by other CR10S Pro owners which made me decide on getting some extras:

1. Three quiet cooling fans for the case from Noctua (who else? The Noctua fans in my PC are excellent)

2. A WhamBam build plate - this permits easy removal of finished parts without needing a spatula.

These should arrive soon.

The Cabinet

I like the idea of building a cabinet to put around the whole printer for various reasons:

(a) Temperature control – even inside my house the temperatures can vary a lot winter/summer and printing some materials e.g. ABS works a lot better if the chamber is at least temperature stabilised.

I am not sure how far I would go to set this up but it may be a future development.

(b) Safety – I prefer not to have machinery moving about in my workspace uncovered.

(c) Gases – Some plastics give off gases when printed. I would like to have the chamber exhausted to outside or at least filtered for long term health.

(d) Also, I might add lights and a camera for remote monitoring inside the cabinet.

(e) One final extra is that I could then mount a filament store underneath the cabinet in a sealed box and feed the filament up the back of the whole unit rather than having one roll on top. It seems that keeping filaments dry and warm is important for good results so this would take care of all that in one unit.

This Printer cabinet would need to be about 700 x 700 mm square and there does not seem to be anything that size on sale so the whole thing would need to be custom made. 

This (naturally ) lends itself to be made with 3D printed parts. I am thinking the flat parts might be plastic sheet with insulation on most of the insides while the edges could be aluminum extrusions and then the corner blocks would be 3D printed in something strong e.g. ABS. 

This is, of course, a work in progress.  Not sure how the cabinet idea will work out - it is more a matter of how much I end up using the printer - if it gets a lot of use then the cabinet will be worth the effort.

More coming once I get the printer up and running.  

Speech, Free or Otherwise

On the box down here they are advertising VPNs – The big sell here is that you can connect via the VPN (Virtual Private Network) and pretend to be connecting to the net from any country you want. This will apparently mean that you can view content that would otherwise be blocked to you in your native country. Of course, you have to trust the VPN itself that they will not be recording or tracking your access. Can you see anything wrong with this service? 

I have seen a number of people online who say that keeping your net surfing private is essential and that you should encrypt all of your files and your net traffic to do so.

Well, I don't see how is this supposed to work: Why do these folks assume that the spook agencies haven't already got ways to see through your encryption systems and easily read whatever you are trying to hide? They have plenty of money and manpower to do this and a very big head start on you and any other geek who might want to try it. They also already own the server farms and the big data corporates.

I also don't see why this is essential, unless you are doing things you feel guilty (or at least nervous) about over the net. Oh yes – if you really want to do naughty things, why not just not do them over the internet? You know, the old fashioned way?

Censorship is increasing thanks to some truly insane legislation in various places that now appears to permit any old dropkick with a grudge and a big mouth to accuse anyone of copyright infringement or "hate speech" resulting in the big providers e.g. YouTube blocking your content while the accused has apparently no way to disprove this and must appeal to the complainant to get the block lifted.

Until recently I watched a lot of YouTube, then suddenly it all disappeared: well, a lot of the people I watched on YT got disappeared, to be exact. I don't care so much if they were making money off it, but they were not doing anything apart from providing entertainment and sometimes comedic critique. Actually the idea of making a wage from YT videos has never been comfortable for me: that money has to come from somewhere and if it is not coming from your subscribers then where?

So the advertisers (which I never saw since I paid for a sub) put pressure on YT to block anything that might affect their sales, riiight? No, it's not that simple.

This whole matter expands quickly into the question of free speech: do we have any? How much is enough? How much is too much? On the one hand I think free speech is important since without it we are just another repressed dictatorship – and how do we stop big players e.g. media corporations, private interests and spook services from monopolising the networks just to push their ideas?

The answer is we almost can't – but we can vote with our feet: don't watch that shite and find somewhere else to go on the net that is more free and open. Yes, it still exists - at least for now.

I recently watched a vid on how to set up Tails on a computer - along with other scandalous stuff about how you are being watched online etc. etc. but there is one fundamental matter for me: I don't need or want to tour the “darknet” : I don't need to know how to get illegal things and I don't have any secrets or hidden guilt for things in my past or present. I got rid of all of that a long, long time ago because it only made trouble. Same goes for all of the fringe criminal people I knew in the past – being around them didn't do me any good, in fact the opposite was true. Hang out with a psycho and you could become one too. Yeah, sure the big media is all owned and they feed whatever the (CIA, NSA or other Three- letter acronym) or some Corporate tells them – but anyone with enough of a clue knows its all bullshit. There are still some sources that report truth, you just need to look for them. Yes, there does seem to be some faction of nutters conducting attacks on people who want to speak truth – but that has all been going on for a very, very long time: those things stay the same even now. It's just expanded lately and got crazier than before. Apparently Fakebook is the worst offender here but then I never liked it and I'm not on it so it doesn't affect me: I was on the net long before Facebook existed and I expect to be here long after it is gone (hopefully soon).

So it looks like the shrill voices of fear have won: many of those kicked off YouTube have gone over to BitChute which would not be bad except someone here in Oz has decided we should not see BitChute or D-Tube which were the two touted alternatives to YT. If you look on Wikipedia it claims that Bitchute is full of “rightwing extremists” - except that is not correct – instead the people being kicked off YouTube are anyone who the new "Nartsties" don't agree with. I am not either “right” or “left” - “wing” and most other people aren't either – but this pogrom is definitely not sane or reasoned so don't expect rational explanations of who is banned or why. Some have managed to get their channels reinstated but I wonder how long that will last.

In perspective, I see a fundamental fault in YouTube that did need to be fixed: people were getting caught up in making YT vids and making a living off it because YT was paying them on a per-view basis. I think this was stupid of them. 

The correct model is that people should be paying subs as one can do with Patreon or Paypal if they see a channel as being worth their money – and of course, then subscribers can get special content that only they can access. Fine. But please note that this says nothing about the nature or quality of content: What annoys the heck out of me is the censorship.

I have long enjoyed watching wild and varied content related to unusual subjects such as UFO's, the paranormal, etc. etc. - this does not make me crazy or even paranoid. Mostly it is entertainment and just plain silly fun when one looks at how way out some of these people's claims are while they are completely unable to support these claims with any evidence – a bit like religion – but for some unknown reason YT has not only defunded them (don't care about that) but banned them – and that is what I think is a step too far. Sure, don't pay them, but why ban them? That's censorship and it isn't even censoring anything important or threatening to the Powers That Be . . . . . or is it?