harry wilkinson portfolio 2015 | 2016 · 3d-printed in a matter of ... cpap masks. quality the...
TRANSCRIPT
portfolio
harry wilkinson
2015 | 2016
about this guy
who am i?recent graduate
putting theory to use
2:1 degree from the UK's top design school
design requires questioning more than answering
product designer
design engineer
prototyper
fabricator
artist
+447896914208
https://uk.linkedin.com/in/harry-wilkinson-6127b112a
build somethingworth testing
makechanges,makeprogress
manifest an idea
disect theoutcome
ask therightquestions
what can i do for you?
contact
harry wilkinson
1 year of industry work
3 years of product design education
23 years of asking annoying questions
So far, this is what I'm made of. I want put myself to good use, to design and improve the function and beauty of products and services that I feel benefit the human experience and the world on which we live.
contents
portfolio 2015 | 2016
1 | Mortrack
2 | Rapnoea
3 | Bradley Forge
4 | Microelectronics
5 | WAHL Shaver
6 | Planning Documentation
7 | Back To Back
portfolio 2013 | 2015
8 | Compact Engineering - work placement
9 | Intraspect
10 | Future-Organic Digital Radio
11 | Upper Cut
12 | Sculpture
13 | Sculpture
14 | Sculpture
1
EfficiencyEfficient
Mortrack
With an average time of 1.75 seconds per brick, compared to 8.8 seconds for conventional point-ing methods, a Mortrack gives the user a 500% speed increase against applying mortar by trowel.
FastIndividual mortar components - water, cement, sand - can be added to the device and mixed before being applied to the joint.
PrototypedA working mechanical proto-type was created for proof of concept.
Hand-held Mortar Extruder
The Mortrack hand-held mortar extruder enables rapid, accurate pointing while removing the need for plasticisersand perfect mix ratios., reducing material waste, time and skilled labour.
PreciseThe device is able to accurately apply mortar to joints of varying depths and widths. The nozzle can be removed and replaced with one more suitably sized, depending on the task.
This concept was shortlisted for the Travis Perkins Innovation Awards The reduction in waste and time makes this a highly sustainable solution
2
Efficiency
Comfortable
Adjustable
EasyThe patient or practitioner is able to scan the patient's face to create a detailed surface model.
A butterfly valve, built into the main mask body, allows the user to adjust the air pressure in the hollow contour part. This aspect turns the contour into an adjustable air-cushion.
RapidRapnoea was a conceptual project , with the briefset to redesign a functional product that incorporateda customisable and replacable part, improvingperformance.
The custom-fit contour is 3D-printed in a matter of hours, meaning the sufferer can integrate the product into their lives on the day of their diagnosis.
Rapnoea3D Printed Custom Sleep Apnoea Mask
A contour is defined by the surface model to create a perfect fit for the patient. They can then sleep in far greater comfort than with conventional CPAP masks.
QualityThe quality of the design, materials and processes used is manifested in the quality of sleep the user can now experience. No pain is caused by overtightening or hardmaterials.
This project had a 9 day deadline. The time was spent researching sleep apnoea to redesign the face mask
3
Efficiency
Bradley Forge
Cutlery
Garden Furniture
After being inspired to explore the properties of hot steel, I designed and built a coal forge capable of producing temperatures between approximately 400C and 1,900C. I set up a small business, Bradley Forge, at home in Northumberland.
Metalwork and Garden Furniture Design
I have designed and made bespoke steel cutlery, by first forging and then fettling and finishing by hand.
I have made commissioned steel plant supports for gardens. By using CAD to create virtual prototypes that enable perfect fits for large, nonuniform plants, I can use software to calculate volumes of steel and costings to minimise waste.
The purpose of the forge is to allow me to experiment witn different materials and create artistic and functional furniture and tools.
My designs respect and absorb traditional influences, whilst integrating modern aspects.
4
Efficiency
MicroelectronicsFrom Automated Control to Handling Data
By programing an Arduino to take analogue inputs, I was able to calibrate and control the Mortrack's DC motor using relays and PWM .
I designed and fabricated an automated can-crusher, capable of counting and calculating the force required to crush each can. The software was prototyped virtually in MPLAB, followed by the elctronic hardware builds using an FPGA and PCB-mounted PIC microcontroller.
Software
Hardware
I was given the opportunity to learn to integrate microelectronics into many of the projects I was tasked with during my period of education at Loughborough design school. I was confident in using and building on this knowledge during my year's work placement, as well as in personal projects. I am proficient in coding in C and Arduino and using a variety of microcontrollers.
I learnt to program microcontrollers using C for PIC and the Arduino language. MPLAB IDE was used to simulate programs and compile the code for the PIC microcontroller.
I am able to design and print circuit boards, use analogue and digital sensors and control outputs.
5
Efficiency
WAHL ShaverCustom Grip Redesign
This project was a 3D modelling exercise. By using a ZCorp 3D scanner to take surface data from a modelling-clay mould,I was able to create an accurate surface model of the indentations left by my grip on the shaver. The surface model was then smoothed and thickened, allowing me to incorporate the custom grip into my modelled copy of a Wahl shaver.
IntegratedThe surface is integrated with the seperate CAD model parts.
RemodelledThe shaver skin was then remodelled with the new surface.
AssembledThe remaining parts were modelled and assembled.
MeshedThe scan data is used to create a surface mesh in Rhino 3D.
RenderedHigh resolution renders were produced in Keyshot for a display board.
The principles of this process can be applied to customising any handheld device by remodelling and 3D-printing
6
Efficiency
Floor Plans
I was employed by a friend to draw up basic building plans for a cabin construction project on their land. The planning officials used this series of scale drawings to confirm legitimacy and authorise the project's initiation.
A two-story floor plan was used as an underlay to create a CAD model of the building to the client's specification.
2DFully dimensioned, scale drawings were produced from a 3D model of the structure.
3DI modelled a 3D representation of the proposed building which I was able to use for orthographicic and isometric projections
Planning DocumentationBlack Plantation Cabins, Northumberland
Scale: 1:100 | Sheet Size: A4
Black Plantation Plot Floor Plan
The principles of this process can be applied to customising any handheld device by remodelling and 3D-printing
7
Efficiency
Form
Developed
Ergonomic Function
Back To BackFolding, Reversable Furniture
These chairs can transform to suit rooms and needs. The laminated rocker allows the user's body to fall into its natural equilibrium.
Anthropometric data was used to define the positioning and influence the forms.
A solid rosewood back, cut from a selected fork in a tree would be highly wasteful and expensive but would offer the highest quality, aesthetically. Bent lamination would be a more appropriate method of forming the back and laminated ash would certainly be used for the rocker.
The development of this series of furniture was processed through multiple sketch and CAD iterations.
I designed a lounger and straight-backed dining chair that transform into reclined rocking chairs. Rocking chairs allow the user's body to becomeautomatically positioned in a balanced and comfortable posture. These chairs offer that comfort with elegant, modern style.
PTC Creo was used to establish the centre of mass for each iteration and therefore the balancing point
HARRY WILKINSON
Portfolio 2013-2015
8
Compact Engineering Ltd is a Thirsk based engineering firm, specialing in the design and manufacture of infrared drying equipment, predominantly for the paper industry.
During my sponsored placement at Compact Engineering Ltd, one of the projects I was tasked with designing was a stabilising reflector unit. This unit was the counterpart for the company’s flagship equipment, the Apollo MKIV Infrared Emitter. I needed to design the reflector in such a way that the end shrouds delivered cooling airflow over vital parts whilst creating a laminar flow which would stabilise the sheet, passing between the Apollo emitter and the reflector unit. This required weeks of intensive research and development as well as the application of fluid dynamic analysis and detailed CAD drawings for manufacture, which I learnt on the job through my experience with the company. This assembly was shipped to Mitsubishi Papertech in Germany for testing.
9
INTRASPECT
Rapid Resonse Water Toxicity Tester
Year 2 Design ProjectThe breif stated that would must identify a new product opportunity that utilises the ability to download applications on demand to perform a specific task. I designed and created a non-funtional prototype for a hand-held water toxicity tester, to be used by adventur-ers and outdoorsmen. New information about recently discovered pathogens can be down-loaded and used to identify such threats.
10
Year 1 Design ProjectThe breif was to design a digital radio for a given theme: Rugged, Streamlined or Future Organic. I chose the future organic path and creating a form prototype from modelling foam, inspired by bone structure. This page displays a selection of the development sketches as well as foam model sketches and final model.
FUTURE-ORGANIC DIGITAL RADIO
First Year Design Project
11
First Year Design Project: Higher Tier Electric Shaver
Group Project: Artboards demonstating group effort and my contributing; sketches. The design brief outlined the re-design of an existing product, creating a more desirable and functional item. Our group focussed mainly on the ergonomics of a Boots electricshaver, improving the user experience through enhancedmanipulation of the device. The artboards were not compiled bymyself, however, they contain many of my sketches as well as images of a foam model prototype, pictured on right hand board.
12
HARRY WILKINSON ART.COM
A Personal Online Portfolio Displaying Works Prior to 2014
Sculpted Bust. Classical studies resulting in contempory and classical finished pieces. Clay original, clear acryilic cast around gears and sprockets, cast and sliced plaster, aluminium powder impregnated acrylic resin. These busts were cast from one original clay sculpture. Inspired by The Thinker by August Rodan, this piece stands 260mm high and took six weeks to complete all four busts.
13
HARRY WILKINSON ART.COM
A Personal Online Portfolio Displaying Works Prior to 2014
Welded mild steel stag. Studies and finished piece. Welded using a MIG setup and referenced from photographs. Final sculpture stands at 7 feet and 10 inches tall and took 8 weeks of work. Inspiraton taken mainly from the works of Anthony Gormley’and Rupert Till. A great deal of what I have learnt about resistant materials I have accumulated due to my experience with experimenting and making mistakes whilst creating sculptures. Although, now I mainly work with materials for a less artistic cause, I use my artistic side to my advantage when engineering and designing.
14
HARRY WILKINSON ART.COM
A Personal Online Portfolio Displaying Works Prior to 2014
Geometric studies and resulting sculpures. Welded mild steel, complete great-dodecahedron and sections thereof in the larger, fragmented sculpture. 20 hours work overall for both pieces. The great-dodecahedron is one of the 4 Kepler Poinsot polyhedra, comsisting of 12 pentagonal faces. Each face is faceted into 5 sets of 3 facets.