Statue / trophy

CAD modelling work for 3D printing project for making "HO" scale model kit at shapeways

The Beauty Bullet holds am entire face of make up stationary and all together in one place. We are in need of a 3D CAD Design and drawing so we can have a 3D print made

I need someone who can make a replica of a model buggy type car. For a 3d impression

Hello all - the purpose of this contest is to design a ground-breaking new type of planter for "plant people" that will fix a lot of the current pain points. The design is broken up into 4 parts, that all easily fit together with "push to connect" type tech (sorry don't know the term for that) like a lego essentially. Here are the 4 parts: 1. The moss pole: A moss pole is essentially a chicken wire or latticed plastic cylinder that sits vertically in a house plant pot. The pole is stuffed with moss, and the plant is attached to it with string or velcro. The aerial roots of the plant then grow into the pole, creating bigger leaves and providing support for the plant. The current pain point is that it is hard to maintain a perfect vertical angle of the moss pole because supporting it in soil is difficult. This moss pole would need to have a couple of key features. a. It is made up of a plastic lattice with relatively thin, yet close together webbing b. The lattice pattern is also on the base and top of the moss pole (the circles at the top and bottom that are parallel to the pot's base) c. The moss pole can be stacked on top of an identical moss pole, simply by some sort of "push and click" method. Think lego. d. The moss pole opens longitudinally - this is the difficult part and what is currently not on the market. The pain point that this solves is that it is annoying to stuff the moss at the top and attempt to push it to the bottom. So opening it length wise allows you to place the moss in, close it and snap it. Please design two to three clasps that close the moss pole back together. 2. The pot: The pot should be a lot simpler. The main difference between my pot and a standard one is that it will have the same mechanism at its base that the moss pole does to stack. Meaning, a plant lover can simply push their moss pole into the pot and it clicks and supports itself. The key here is that I would like the click and push connection to happen about halfway up the pot, so it will need to almost look like a tube inside the pot. Hope that makes sense. Here are the key features: a. The pot looks proportional. b. There are 5 drainage holes at the bottom of the pot. c. There is a push lock for the moss pole about halfway up in the middle of the pot. 3. (Optional) Since moss poles should ideally always be moist, I envision a slow-drip cap that can snap on to the top of the moss pole and be filled with water. It would be easy to refill from the top, and provide constant moisture to the pot. a. The slow-drip cap can be filled with water easily from the top. b. The slow-drip can can be snapped on to the moss pole using the same mechanism that the poles attach to one another AND that the poles attach to the bottom of the pot. c. The slow-drip cap slowly wets the moss pole. 4. The pot's saucer. This is the relatively simple one! I would like a saucer the pot can be set inside to catch drainage from the pot.

The 5-chip gridseed minder is a computing device that attempts to discover large complex hashes that meet the criteria for various digital currencies (such as LiteCoin). The miners are designed to work together in groups of 10-20. The goal of this contest is to design a modular mounting solution for each miner, that will (1) allow the miners to be easily joined together in a single structure, (2) permit future expansion by adding new modules, (3) protect the delicate heatsinks, (4) provide for efficient, aesthetic and safe routing of cables, and (5) provides for a power distribution bus that cannot be accidentally touched (safe). See criteria below. Solutions may involve multiple parts/prints. DETAILED MINER DIMENSIONS AND DESCRIPTION: Each miner is basically a cylinder consisting of a: (1) a round heatsink (95mm diameter, 45mm height) on the bottom, and (2) a round fan on the top (95mm diameter at the widest point of the rims, 25mm height). For one mounting possibility, there is a 14mm wide indentation (2mm deep), around the circumference of the fan. The lower rim of the fan (before the indented area) is 4mm in height, and the top rim (before the indented area) is 1mm in height. There is a small slope (bevel) from each of the upper and lower rims to the indented area (note that I did not include the beveled area in the measurement of the 14mm width of the indentation). The fan is secured to the heatsink with four triangular mounting tabs that protrude 8mm (at the longest measured from the edge of the rim to the point of the triangle). Each "side" of the triangular mounting tab is 14mm in length. The angle between the legs of the mounting tabs is 90 degrees. Viewed from the top, therefore, the mounting tabs form the corners of an 80mm x 80mm square superimposed on the otherwise circular shape of the 95mm fan. Each miner requires two connections - a power wire and a USB wire. These connections are located together (about 45mm apart) on one side of the heatsink below one of the mounting tabs.