MODULE 2
design
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MATERIAL SYSTEM
Derek Huynh & India McKenzie
Span
Spline
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M2 / wk 4
NOTION OF PERSONAL SPACE
Derek Huynh & India McKenzie
M2 / WK 4
Derek Huynh & India McKenzie
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THE BRIEF
Derek Huynh & India McKenzie
M2 / WK 4
Derek Huynh & India McKenzie
PRELIMINARY GROUP IDEAS.
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After our experiements with materials last week we began to reimagine the structure of our design. Whilst the smoothed organic curves of the bone structure were aesthetically pleasing, they lack practicality and precision. When approaching the prototype, the create the exact curves with raw materials proved to be exceedingly difficult. Thus we moved towards developing a geometric rule for defining the shape of the bone structure. We were able to justify this by incorporating aspects of Derek’s initial design sketches from Module 1 and integrating them onto the chosen design. Drawing inspiration from geometric architecture primarily, the design moved away from the free-flowing curves towards the more rigid and cage-like form we see below.
Derek Huynh & India McKenzie
Original Design Concept
This supported our concept of our interpretation of a second skin as the structure acts like a brace, forcing the wearer to confront their notion of personal space and avoid typical reactions to intrusions into that space. In order to mould around the body with geometric shapes, we created an angled arrangement that hugged the body just as a second-skin would. The transition into geometries also affords us great variability with the angles, joining types, materials and also the integration and of bone and skin structures. Revised Design Concept
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Derek Huynh & India McKenzie
Arm bracing design
Arm enabling design
Our intention is to experiment with the placement of the rib structures both underneath and over the arms. Not only in terms of functionality but also in meaning. The original structure suggested that the ribs would hug around the chest thus allowing for free movement of the arms. However, if we take the concepts of personal space discussed in Sommer to the extreme, we proposed that we would secure the arms and surround the entire upper body in a cage-like brace. When one feels like their personal space is being impinged upon, there is often a change in body language as seen in contexts of different densities such as public transport. Common behaviour are slumping, covering parts of ones face with their hands and averting their gaze. The idea of the bone structure is that one is discouraged from such behaviours and forced to maintain a constant posture regardless of the context. The incorporation of braced arms would complement this idea and thus we will explore this further throughout Module Two.
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Derek Huynh & India McKenzie
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Derek Huynh & India McKenzie
Precdeent Example 1: Buckminster Fuller A loss of roundness and increased rigidity is one of the main flaws in solely adopting the ideas from the Federation Square walls. Incorporating the ideas of mixed geometry into the design – as R. B. Fullerene had achieved in his time – would allow a larger range of possible forms. This would allow our design to have more flexibility and roundness. This can be seen in the diagram where the pentagons create the sphere to curver aroud the hexagons.
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Derek Huynh & India McKenzie
Precdeent Example 2: Federation Square Our design has been inspired by the Federation Square. Its network-like cladding displays a complex and unique geometric artwork. From analysing the design ideas, it is evident that there is a line of symmetry through the pattern but the overall design looks unsymmetrical. This idea could be implemented in our exoskeleton design as humans are physically symmetrically but their sense of personal space is not. Using Federation Square as an analogy can portray these two characteristics in a creative and precise approach. The strong emphasis of geometry which exists over the entire building’s cladding system is a result of precise tessellation analysis. The network of lines is constructed by triangular panels – these panels then segment further into five, smaller triangles. In doing this, the designers have achieved a basic, tessellated pattern which still displays complexity and uniqueness. The window openings are based off the shape of these larger triangles.
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Federation Square: Geometries In analysing this pattern further, central points can be found throughout the designing – these areas connect eight larger triangles. These points are linked perpendicular to one another, oriented with the line of symmetry. The designer has accomplished an asymmetric effect through the unbalanced patches of colours throughout the cladding.
Derek Huynh & India McKenzie
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Derek Huynh & India McKenzie
Precedent Example 3: World Wide Web Visualising Information Taking the idea further, we can draw inspiration from visualising information as a web. The current geometric ideas lack the aspect of portraying information. The pattern of shapes used in the second skin can reflect many networks of knowledge – it can show the psychology of links of the mind, extremities of personal space, emotion and so on. So far we have analysed precedent examples which are based on the surface of the second skin. Incorporating ideas which play with depth and angles can significantly alter the perception of the object. For example, Paul Loh’s table has experimented with the idea of allowing users of a table to see each other’s body languages. Using this as an analogy for our second skin design, we could present the idea of hindering one’s view of specific sections of the body while opening up other, less sensitive areas.
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Derek Huynh & India McKenzie
Precdeent Example 4: The Human Spine The function of the spinal column is to protect and spinal cord which permits communication between the brain the bodies limbs and thus permits movement. We decided to abstract this reliance on the spine into becoming the focal point of our symetrical design. As both the literal supporting member and the figurative ‘back-bone’ for providing strength and confidence in uncomfortable situations, the formation of the rigid spine was crucial to our development. Whilst our initial concept followed the curves of the spine in an offset fashion, our transition into geometries meant we had to create angles from the curve. This can be seen in the angles of the revised design concept sketch.
Original Design Concept
Revised Design Concept
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Precedent Example 5: Rib Cage Sommer’s article provided us with an academic background for understanding the differing dimensions of personal space according to context and highlighted the areas of vulnerability. Following on from this notion, we identified the heart as the center of being. This also related to our anatomical concept of the spine as the protector just in the same way the the ribs protect the vital organs. We modelled our designs off a 5-point clip belt as seen in the diagram. This concept offers plenty of variety in terms of structure and materials and thus will be a focal point of our further design developments in the remainder of Module Two.
Derek Huynh & India McKenzie
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Model 1: Component This task prompted our discussion of potential materials for our protype
Derek Huynh & India McKenzie
Model 2: Movement
Model 3: Volume
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FURTHER DEVELOPMENT
Derek Huynh & India McKenzie
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Derek Huynh & India McKenzie
RHINO SKETCHE REVISION
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Derek Huynh & India McKenzie
Further Development Rhino Sketch Model
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Derek Huynh & India McKenzie
PROTO + TYPE “first impression� We brainstormed a range of potential materials we could use for our prototype and discussed the required properties of the materials to perform the skin and bone functions. Both of these two components function in a different way and we conceptualised the aesthetic we wished to achieve with the relationship between them. We concluded that our bone structure would need to be comprised of sections of straight lenghts with fixed, rigid joints to maintain the form of the skeleton. For the skin, we required a malleable, free-flowing and potentially transparent material that would mould to the shape of the skeleton to contrast the sharp geometry of the skeleton. The two materials needed to work in synergy to be both functionally and aesthetically successful. Our key issue is the joinery of each segment. Given the complex geometric structure, the joints need to be secure and rigid and create the framework for the skin. We also had to consider the construction process and the degree of difficulty in connecting each segment. We were forced to simplify our design into regular and consistent angle joints so that we could reduce the number of different joint types. The images to the right show some of explorations of joining systems in electrical, plumbing and irrigation systems.
DWV Bend MF PL 50 x 88D
Elbow PVC Joint 90 Degrees x 40mm
DWV 10F FF Bend 40mm
Hardwicks Copper Straight Pipe 19.05x1.02mm x 1.5m
Copper Coupling 20mm
Brewers 15mm Copper Cap Tee
Home Irrigation Barbed Elbow 13mm
Barbed Tee 25mm
Barb Joiner 25mm
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Derek Huynh & India McKenzie
Materiality Bone - timber - balsa wood - PVC pipe - foil (compressed) - wire - garden hose - plastic tubing - aliminium
Skin - mesh - bubble wrap - canvas - tulle - calico - foil - glad wrap -
For our Module Two phototype we selected a lightweight gutter mesh as our bone structure. Whilst the wire was relatively malleable and flexible, we managed to achieve a higher degree of rigidity by layering multiple lengths of the wire together which strengthened the form. This also allowed us to create longer lengths to run the full length of the spine, and forge our own angles to mirror the shape of the spine. This assisted in developing our measurements and tailoring it to the body.