Wednesday, January 8, 2014

Stool Design Guide: Structure

As a warm up to the upcoming Shop Stool Build-Off, I'm putting together some points to help design an ideal shop stool. We've looked at both ends, which leaves only the intervening structure to consider. I apologize for the lack of images for this segment.

Structural considerations are going to revolve around mass, stiffness & degrees of freedom (motion) requirements relative to your stool's functions.

Degrees of Freedom

We discussed DOF* in how we want the base to move relative to the world. Still we may wish to leave a DOF free or only partially constrained within the structure for instance elevation and yaw (swivel). You may want a height adjustment on your stool so pneumatic cylinders may be an option, also threaded wooden rods (piano stools). Cylinders allow some cushioning potential as well in that direction. Either one usually also means you will have a swivel, which may be desired. Some sort of 4 bar linkage could be created to allow 2 elevations or folding away, but can't seem to find any examples for that beyond the convertible kitchen stool/step combinations.

Mass

Mass is going to be a consideration if your stool is to be mobile and especially if you intend on picking it up to move it (as opposed to rolling) Woodworkers tend to overbuild everything, which means too much mass. To illustrate, most some pieces I've made, I do a final check by standing on it and jumping... This is excessive for sure, but the adage "When in doubt, build it stout (from stuff you know about)" comes into play, So think about removing some mass if it's not needed for a function (or adding if you are going to use it as a in-feed support.) But be careful to watch for buckling scenarios on overly thin components. Windsor chairs are a pretty good example of minimal mass usage. Any sort of optimized for mass/stiffness layout is going to end up being some massively complicated truss type system like Chris Hall's amazing Treteau (which I would have no hope of completing for the build)

Another mass factor to consider is where the Center of Gravity will be, especially relative to any handhold (should be vertically in line with CG for minimum frustration) or if there will be tipping forces present.

Stiffness

Stiffness is related to mass, as whatever material we use has a given density and modulus of elasticity. Still, design geometry plays the more significant roll. Consider standing carefully on an empty aluminum can vs an equivalent mass of aluminum foil arranged as you wish. Likewise a structure that keeps wire members in tension is very stiff relative to mass (suspension bridge.) or the Eames Molded Chair frame

Ideally, you could simulate all expected load cases on your design with some sort of finite element analysis (FEA) model optimizing it so none of your materials go beyond their elastic limits. In reality, this would be a ton of work and a bit of unreliability is involved given the inconsistency of sawn wood as a material for razor edge designs (if you can even really understand all the potential use cases; is a 300lb teenager rocking on the back legs a valid design criteria?), So most are going to just overbuild the geometry a little and if it flexes, then they'll add a brace etc. The problem with this is every structure flexes and acts like a spring to some extent, it's just a question of how much, and adding that brace can cause flexing in other directions/locations...

Flexing components and especially joinery past their limits will cause catastrophic failures, but flex-body design can be used to good effect when kept within reason. Consider the difference between the structure of 4 leg pedestal base table vs. 4 leg table with aprons. A pedestal base is very stiff and so it wobbles on an uneven floor. The apron table typically might touch on diagonals initially (setting up for the wobble) but if the top and aprons together aren't too stiff (likely given their size), it will flex like a hinge a small amount (staying within the elastic range and allowing it to bounce back when moved) and make contact on all four legs under it's own weight. A similar thing happens with the typical 5 legged rolling office chair, note how the legs are on arms (that sounds weird) when on an un-flat floor (within reason) the "high point" arm will flex a bit until the other arms start to take some of the flex until finally most or all will bear the combined weight (and stay within the elastic limit). If the 5 legs were more like tripod legs (going straight toward the swivel) then in addition to the legs getting in the way of curling your legs under you, I suspect it would be too rigid and you'd get the dreaded wobble. You could also use the flexing of a springy wood to give a slight suspension effect mimicking the spring pole lathe or bow's principles.

Hopefully I've given you some things to think about in designing your shop stool and beyond. In my next post, I'll discuss how I plan on combining these variables (along with the short build time-line) into my own design.

*If you've enjoyed this sort of technical engineering stuff, I recommend this short design reference, it's excellent:
Exact Constraint: Machine Design Using Kinematic Processing

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5 comments:

  1. Jeremy,

    It is clear that your work is very different from mine. Even though I am not a big guy, I would not jump on the majority of my designs. I'm eager to see what you create.

    Chris

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    1. Chris,
      I should clarify... For those sort of pieces (tables benches etc.) there is/was a good chance that a guy as big or bigger than me (future me) might be tempted to sit/stand on them as a slapdash way to change a light bulb etc., I grew up as a scrawny kid climbing trees and on stuff; if I broke something once it was in the house, I might be faced with the sad reality that I'm not a kid anymore.
      Also I have a healthy respect for what can happen in a failure. Before I was born, my dad (not a small guy) had a kitchen chair fail (changing a light bulb) and severed his femoral artery with long-term repercussions, I don't know what load the designer of that no doubt cheap chair considered, But I try to think of how pieces might be used, outside of their primary function.
      I hope my design documents don't over-promise/under-deliver on my #SSBO piece, public humiliation isn't usually my thing....

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  2. Jeremy,

    It's clear that you are really into this stuff, I'm more of a 'hands on' type of wood worker. I found some of this useful, If only to back up my design..or maybe I don't get it.. and when you guys see what I have in mind you might shout Nooo..just wrong.
    But the #SSBO piece is for pushing some of my techniques and ideas too, bringing them together in one piece of furniture just gives me the opportunity to try them out..

    Keep up the good work.

    All the best Jamie

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    1. Jamie,
      Thanks for the kind comment. I'm sure your design will be fine. I am "into it" only because it's related to my day job, so it's gotten hardwired into my brain and goes on in the back of my mind for most projects, even if I try to shut it out. This is helpful, but I often find I enjoy woodworking more when without ignoring principles, I don't get hung up in "analysis paralysis" mode. This project is the first one I've started a CAD model of in a long time, mostly so I could share something here. I wanted to write this series of articles:
      1. To build some additional excitement about the #SSBO which I think is a neat idea.
      2. To show a window into how my mind works (so people can understand my own particular brand of weirdness)
      3. To start documenting something I have noticed (after working with heavy equipment machine design variation for a decade) in many great woodworking pieces. Namely that they have evolved/survived as great examples of well constrained designs, with many hidden lessons on the topic. If I can learn to write effectively on the topic, this is something I have to contribute to the community.

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  3. I really like all your abbreviations. If I manage to participate in the SSBO, I think my build will be rather traditional, even though I sometimes dream of making an interesting joint venture of e.g. a wood seat and wood legs, but with brass truss stiffeners.
    I am looking forward to seeing your design.
    Brgds
    Jonas

    ReplyDelete