RE-3 Set of four 3" Casters, commercial grade, with M8 x 22 Metric stem for CUZZI Computer Desks and Carts.
Improve the rolling capabilities and the durability of your computer desk and devices with the RE-3 set of 3" commercial-grade rubber casters, while reducing rolling vibrations.
Regular Price: $58.00
Sale Price: $40.00!
+ Shipping: $12.00 (contiguous U.S.)
Many computer carts, laptop carts, and other rolling devices or
furniture in general come from the factory with 2" casters, which
are good for regular use on even hard floors or thin carpeted
Nevertheless, for commercial, industry or heavy use, or heavy devices, or simply to achieve a smoother and easier portability,
especially on un-even floors, larger 3" rubber commercial grade
casters (wheels) are highly recommended.
- Metric stem: our set of 4 RE-3 inch diameter casters come with metric threaded stems. This is key, since most casters
in the market come only with standard stems, not metric stems. Therefore, they cannot be installed to upgrade the rolling
capabilities of your cart, as the standard stem will not fit.
Our casters fit on all CUZZI Desks and on any desk that uses a M8 metric stem (22 mm. long). If this stem is too long for your application, it
can easily be cut with a hacksaw.
These casters (wheels) come in a set of 4 casters, two with locks (brakes intended for the front) and two without (rear). The ones for
the front include a pedal-type brake, to hold your computer desk or
cart in place.
These casters will be a great upgrade when regular portability of
the computer desk or cart is a must, such as at schools,
industries, commercial settings (as car dealerships, lobbies,
service shops, etc...). These computer desk wheels also work well
in thin carpeted areas and uneven floors and are resistant to harsh
The "ride" will be smother due to its commercial-grade rubber
wheel. Each caster can hold a weight of 110 lb., "oversized" for computer carts. The portability will also be
improved by their better swiveling capabilities, making turns much
easier in tight places. The swiveling capabilities are enhanced by
the ball-bearing mechanism.
Vibrations will also be significantly reduced when travelling on