513
edits
No edit summary |
No edit summary |
||
(23 intermediate revisions by the same user not shown) | |||
Line 1: | Line 1: | ||
<br> | |||
== Application Sketch == | |||
<br> | |||
[[File:Application_thread_11.jpg]] | |||
<br> | <br> | ||
== Thread Geometries == | == Thread Geometries == | ||
Line 95: | Line 102: | ||
5. Start braiding! <br><br> | 5. Start braiding! <br><br> | ||
Some experiments:<br> | Some first experiments:<br> | ||
[[File:thread_knots_complex.jpg]]<br> | [[File:thread_knots_complex.jpg]]<br> | ||
Producing knots | Producing knots<br><br> | ||
[[File:thread_linedup.jpg]]<br> | [[File:thread_linedup.jpg]]<br> | ||
Coincidental synchronization-algorithm: all threads end up in the same place<br><br> | |||
[[File:thread_complex.jpg]]<br> | [[File:thread_complex.jpg]]<br> | ||
Complexity + knots by following the "clipboard" order<br><br> | Complexity + knots by following the "clipboard" order and a simple algorithm: left, right, ...<br> | ||
<br> | |||
== Networks == | |||
<br> | |||
How can we visualize or encode networks in a different way than we are used to ?<br><br> | |||
This sketch is a proposal to transform networks and their different parameters by shaping braids / thread patterns. <br> | |||
It is not predictable that random braid configurations evolve into proper braid structures that can exist without any outer support.<br> | |||
Therefore the "machine" above ("braiding") shall be used to set up a thread-path that does not fall apart easily.<br><br> | |||
The structure of the transformation is defined by several parameters that represent different properties of the network.<br><br> | |||
Example:<br> | |||
- the network could visualize trading routes between cities<br> | |||
- the colors could then represent different goods, for instance: yellow = red pedal boats<br> | |||
- A,B,C and D represent the nodes of the network. In this case they could represent the cities.<br> | |||
- the amount of goods can be represented by the location of a color inside the four squares of A,B,.. counted from left to right.<br> If the second square of A is yellow than this could mean that city A has 200 paddle boats.<br> | |||
- now, a match of the colors AND the locations of the colors inside of A,B,C or D means that those two or more cities (nodes) exchange goods (are connected).<br> | |||
In this example: A and B's second squares are yellow -> those two cities trade 200 paddle boats.<br> | |||
- if there is no match then there is no connection.<br><br> | |||
The "braids" and the network drawings can be infinitely translated into each other.<br><br> | |||
[[File:Network_colorstrings.jpg]]<br> | |||
<br> | |||
== Levers and Cranes == | |||
<br> | |||
How can we move something in every three dimensional direction? <br><br> | |||
A mechanical feature of thread is that it can pull - but it can't push. <br> | |||
This structure helps to move things with thread by the use of additional mechanical support.<br> | |||
It is meant to be used by two peoples who operate two strings (yellow, each person) in order to move the object.<br><br> | |||
One important part of that structure is a spring (green). <br> | |||
It is attached to a fixed spot in the room. It stretches and contracts itself when the attached object is moved 1) parallel to the ground and 2) up and down. <br><br> | |||
Another essential aspect is the thread that goes through / is attached to the middle of the object. <br> | |||
It holds the object in place so that a precise movement is assured.<br> | |||
It also takes away some of the objects weight in order to exonerate the operator strings.<br><br> | |||
A third important part are the structures that attach the "middle-thread" (red) to the ceiling and the ground.<br> | |||
They 1) hold the middle-thread in place, they 2) react to the operators movements by turning in the required direction (blue wheel) and they 3) provide a bracket for the spring.<br> | |||
[[File:Kran_thread.png]]<br><br> | |||
Sketches and previous versions:<br> | |||
[[File:3Dplate_sketchpaper1.jpg]] | |||
[[File:3Dplate_sketchpaper1_1.jpg]]<br> | |||
[[File:3Dplate_sketchpaper3_1.jpg]] | |||
[[File:3Dplate_sketchpaper3.jpg]] | |||
<br><br> | |||
<br> | |||
== Pulleys == | |||
<br> | |||
This is an assembly kit that allows to work with pulley/thread constructions in a flexible way. <br> | |||
It works best with flat and smooth surfaces and it can be used in vertical and horizontal constructions<br> (such as logical operations, see Rachel Smith's and + or gates).<br> | |||
The parts:<br> | |||
1) 3D printed pulley wheels <br> | |||
2) metal ball bearings <br> | |||
3) plastic suction pads and <br> | |||
4) thread. | |||
<br><br> | |||
[[File:3Dprint_pulley.jpg]]<br><br> | |||
[[File:pulleykit.jpg]] <br><br><br> | |||
First window construction: | |||
[[File:pulley_window.jpg]]<br> | |||
<br><br> |
edits