Skip to main content

MojoFloCam has a funny name and a smooth purpose

The skyrocketing popularity of smartphones and compact video cameras over the past several years has resulted in a certain class of products starting to show up a lot on Kickstarter – rigs for stabilizing video shot with the devices. We’ve recently covered models such as the Circle Thing, theStabil-i Case, and the SteadeeGo. One of the latest such products, Steadibitz’ amazingly-named MojoFloCam, looks like it does a pretty good job at smoothing out the shakes.Unlike the curved Steadicam Smoothee and its various clones, the MojoFloCam (from hereon in to be referred to as the Mojo) is based around a straight vertical metal pole.
At the top, a smartphone or camera (weighing up to 11 oz/342 g) is attached using either the designers’ universal phone mount, or simply a threaded screw mount. Below that is a pair of horizontally-extended counterweights, followed by the gimbal-mounted handle. Finally, another couple of counterweights are located at the bottom, at an axis perpendicular to the set at the top.
The four weights are mounted on two threaded rods, allowing them to be incrementally moved to either side when initially setting the rig up for a new camera. This means that once the Mojo is balanced, the camera won’t lean to the left or right, nor pitch forward or tip back. The bottom section of the pole, containing the second set of weights, can be extended downwards to compensate for heavier cameras.
The Mojo's thumb guide
The sealed-bearing gimbal is what helps keep the user’s vertical and horizontal hand shakes from being transferred from the handle into the pole. For situations in which they wish to quickly pan or tilt the camera, however, the user can reach in and use the thumb guide (see picture above).
A pledge of US$175 will get you a Mojo with the phone mount, when and if they reach production. Footage shot using it can be seen in the pitch video below.
A beefier version, the MojoFloCam II, is apparently in the works for larger cameras.

Comments

Popular posts from this blog

Nanotubes boost potential of salinity power as a renewable energy source

In November 2009, Norwegian state owned electricity company Statkraft opened the world’s first  osmotic power plant prototype , which generates electricity from the difference in the salt concentration between river water and sea water. While osmotic power is a clean, renewable energy source, its commercial use has been limited due to the low generating capacities offered by current technology – the Statkraft plant, for example, has a capacity of about 4 kW. Now researchers have discovered a new way to harness osmotic power that they claim would enable a 1 m 2  (10.7 sq. ft.) membrane to have the same 4 kW capacity as the entire Statkraft plant. The global osmotic, or salinity gradient, power capacity, which is concentrated at the mouths of rivers, is estimated by Statkraft to be in the region of 1,600 to 1,700 TWh annually. Electricity can be generated through the osmotic phenomena that results when a reservoir of fresh water is brought into contact with a reservoir ...

NES robot mash-up competes in robo boxing tournament

In a move that brings back memories of the  R.O.B.  (Robotic Operating Buddy) that was available for the original Nintendo Entertainment System, Japanese hobbyist Izumi Ninagawa has simplified the controls of a modern fighting robot to work with a Famicom (8-bit NES) game pad – which has one of the most basic button configurations around. The NES-styled robot even competed in a robot boxing tournament earlier this year Ninagawa's XEMNES robot is based on a lightweight kit sold by De Agostini called  ROBO-XERO , which weighs less than one kilogram (2.2 pounds) and is powered by 24 Futaba servo motors. By attaching a Bluetooth dongle to the robot with a special micro controller, Ninagawa was able to take advantage of various wireless controllers, including the Nintendo Wii remote. The remote was then hidden inside the shell of a Famicom, and attached to the Famicom controller using an adapter to complete the set-up. Despite the NES pad's limited number of buttons, variou...

Roadless wheel concept adjusts to all terrains

Graduate student Ackeem Ngwenya has combined the 6000 year-old wheel with modern materials to develop a new type of all-terrain wheel assembly that switches from narrow to wide tread at the turn of a screw. His Roadless wheel system, while envisioned for rural applications in his native Malawi, has the potential to be as big a change to road (and off-road) transport as was the introduction of anti-lock braking. We've all done it. Before embarking on a long driving trip on smooth-surfaced interstate highways or other roads of national importance, we'll raise the tire pressure to boost the gas mileage a bit. Stuck in the snow, mud, or sand? Let some pressure out of the tires to increase the contact area, while at the same time increasing the chances that the now floppy tire will grab hold. However, the benefits of trying to change the aspect ratio of a tire by simply changing pressure are rather minor, and often associated with a significant loss in tire lifetime. The Road...