Some cool fast prototyping design photos:
Universal stand-alone filament spool holder (Fully 3D-printable) v01
Image by Inventive Tools
A fully 3D-printable rotating stand for filament spools, created to be easily made with out the require for fasteners such as screws, nuts, shafts, glue, etc. Each single component in this spool holder comes appropriate from your 3D printer’s filament.
The spool holder’s spindle is shaped to match the vast majority of generally utilized filament spools with shaft holes ranging from 16 mm to 62 mm in diameter. It is also compatible with spool-significantly less filament coils.
The spindle which holds the spool’s weight rotates on its own roller wheels, which makes it turn effortlessly.
The spool holder included an arm for filament guide tubes of each widespread sizes 1.75 mm and three. mm. The arm also includes a pocket for inserting a piece of sponge which acts a a filament filter – as a result keeping the filament clean and lubricated.
– Effortless to 3D print
– Requirements no glue or fasteners
– All components can be 3D-printed
– Fits nearly any filament spool size
– Has constructed-in filament filter!
– Can also hold spool-significantly less filament coils
Next time you want a new filament spool holder, just 3D-print one particular! 🙂
Please see video youtu.be/X6ArZeWYSZE
Denver – CBD: CCC – I See What You Imply
Image by wallyg
I See What You Mean, supersized sculpture of a blue bear by Lawrence Argent, was installed along the 14th Street Side of the Colorado Convention Center as element of Denver’s Percent for Art Plan on June 23, 2005. Originally commissioned in 2002, the 40-foot high, 10,000 pound sculpture, was constructed of molded polymer concrete and steel at a price of 4,400.
The bear evolved from a tiny plastic children’s toy, scanned with a with a 3-dimensional laser-scanning device from Cyberware Inc. The Cyberware device converted the shape into a CAD file, which Argent repositioned making use of an animation system from Newtek, which transformed the 3-D hape into hundreds of thousands of tiny triangles, utilizing about 400,000 reference points, and producing movement by altering the triangles’ shapes. Argent reduced the file down to 4,000 or so triangles, which he then sent to a a design firm, which employed a fused deposition modeling (FDM) fast-prototyping machine manufactured to develop a little three-D scale-model plastic maquette. Argent then hired architectural composite fabricator, Kreysler and Assoc., to fabricate the structure produced up of thousands of faceted triangles of various sizes. The components were designed in California and transported to Denver on 4 trucks. In the course of installation it suffered an abrasion on its left haunch whilst getting hoisted off its back by a crane. The scratch was painted more than.
The Colorado Convention Center (CCC), located amongst 14th Street and Speer Boulevard, and in between Champa Street and Welton Street, was opened in 1990. In 2005, an expansion doubled the size of the facility and the center now consists of 584,000 square feet of exhibit space, one hundred,000 square feet of meeting rooms, and 85,000 square feet of ballroom space. Curtis W. Fentress, FAIA, RIBA of Fentress Architects, was the architect of both the original design and style as well as the expansion.