The images below are of a showcase exhibition of the Design Arts at the ANU School of Art’s gallery in Canberra, Australia. Amongst the 19 exhibitors were four finalists of this year’s IDEA awards, three winners of the Bombay Sapphire Design Award and two winners of the Canberra 100 Design awards – all alumni from the School of Art. This exhibition was opened to a full house by Brian Parkes, CEO of the Jam Factory, Adelaide. This exhibition will be on show till 25 August 2012.
Archive for the 'lamp' Category
Tags: anu, art, brian, calypso lounge, canberra, cinnamon lee, craft, de sign ed, de sign ed 2, design, designed, designed 2, designer, designer/maker, education, exhibition, gilbert, henry pilcher, jam factory, jon goulder, maker, parks, riedelbauch, school of art
This exciting exhibition will be opening on Thursday 2 August at the School of Art gallery in Canberra at the Australian National University. The opener will be Brian Parks, director Jam Factory in Adelaide.
Works by the following designer/makers are presented in this show:
Elliot Bastianon, furniture
Sean Booth, metal
Simon Cottrell, metal
Cesar Cueva, metal
Janet DeBoos, ceramics
Nadège Desgenètez, glass
Ashley Eriksmoen, furniture
Robert Foster, lights
Jon Goulder, furniture
Megan Jackson, textile
Johannes Kuhnen, metal
Cinnamon Lee, metal
Rohan Nicol, lights
Henry Pilcher, lights
Phoebe Porter, metal
Gilbert Riedelbauch, metal
Blanche Tilden, metal/glass
Annie Trevillian, textile
Henry Wilson, furniture
The catalog includes a welcome by the head of school, Gordon Bull and an essay about the design arts by Anne Brennan the head of the Art Theory department. Here is a link to a pdf version of the catalogue.
Tags: cad, digital, fabrication, gold, ponoko, stainless steel, web2
Web-based fabrication has gotten even more exciting with a new material/process offered through the Ponoko system. Getting computer models ‘printed’ in 3D using online rapid prototyping processes is established but having the CAD parts arrive in stainless steel with a gorgeous rich gold coat is quite something.
This new material/process is offered through the US hub and is equally as easy to order as the 2d laser-cutting service. I found that dimensions ‘shrink’ slightly eg holes I had modeled as 3.9 mm turned out to be 3.4 mm in the finished parts. Being mostly stainless steel (with some bronze wicked into it) it proved very difficult to drill the holes to the right size. High speed drill bits (even titanium tipped) are blunt after drilling only 6mm deep. Reducing the speed from the recommended 1000 rpm to a third helped to improve their staying power slightly. I look forward to the carbon-nitride drill bit I ordered to finally finish the job.
These parts are for a new light using a mix of digitally fabricated and manually made elements. The ‘gold’ parts are intented to connect carbon fiber rods forming the main structure of the design.
Tags: art, craft, design, lamp, led, leds, light, lights, ponoko, rapid prototyping, technology
This post describes some technical and making aspects of the Light objects for the ANU School of Art library. You can read more about the design aspects here.
During the making of these lights a mix of manual and digital fabrication processes have been used. Brass and aluminium pieces have been laser cut while the translucent red elements had been rapid prototyped by ‘Rapid Pro‘ in Victoria, Australia.
The black curved arms are five 2.5mm layers aluminium, riveted together to create an inside channel concealing the cables up to the brass cylinder. They have been laser cut locally in Canberra by Acuform. The cylinder forms a central hub from which four conical carbon fiber tubes stretch out and support two light heads on each lamp. The lights have a wingspan of 1.4 meter.
Each light head has six one-watt LEDs. The LEDs are mounted on a decorative brass cooling plate (cut by Ponoko) and are cooled by a fan. The following parts had been used: LED ring with six one watt LED (LSP6-WW-XXX) and Controller/Driver (MDU9-SC-3570) from Future Electronics. All elements are enclosed by ABS housings. These housings are rapid-prototyped using translucent red FDM material from ‘Stratasys’.
The curved aluminium arm extent from the main brass fitting which is strapped onto the existing column with an aluminium strip. This strip has custom brass connectors to adjust the tension of the strapping.
The electronics – led drivers and fan power supplies – are placed inside the void between the column and the main brass fitting. The 12 volt fans are driven by 6 volt power-supplies letting them run without developing noise. Before the installation the lights had been tested for several days.
Tags: art, craft, design, desk light, kunst, lamp, led, leds, light, lights, rapid prototyping, technology
These two lights provide four ‘highlighted’ spots for reading or lab top use within the reading pit. The design intent was to connect the space inside the glass walls of the reading pit with the surrounding architecture. The objects themselves should have a mechanical but yet organic feel to them. I used the two columns on either side of the reading pit as anchor points from which the lights reach over the seating area in a ‘branch and twig’ fashion. All brass parts of these lights – being cylinders of sorts – referring to these columns. The lights are lightly strapped to the columns highlighting their light weight construction. The colours have been limited to Brass (gold), black and red.
The lights are made of aluminium (powder coated black), brass, carbon fiber tubes and LEDs.
The designs on the glass panels and on the fabric on the cushions are by Annie Trevillian. Many thanks also to Irene Hansen (head librarian) and Murray Napier for their support of this project.
Tags: art, craft, design, desk light, gilbert riedelbauch, highlights, lamp, led, leds, light, lights, ponoko, web2
This image shows some of the possible combination of materials and colours I played with for the 2nd series of this light object. Basically all 3mm materials could be used as a base. Ponoko has many exciting colours in their materials catalog.