Why raised floor

The primary benefit of Gamaflor access flooring, from a cooling stand point, is to deliver cold air where it is needed, with very little effort, by simply swapping a solid tile for a perforated panel. Due to the importance of Data Center security, the appropriate choice of access floor system requires an exhaustive selection.

POLYGROUP has developed electricity conductive raised access floor systems and antistatic dissipative which will contribute to the smooth electricity running around the data center. Effective Airflow Management. While there are many ways to manage airflow to sensitive equipment in today's computer rooms, no option offers the versatility of the access floor. Raised floors make hot- and cold-aisle containment easier, as all of the cabling is under the floor so partitions may be installed quickly and painlessly.

Raised floors can also be updated and modified to improve airflow to equipment with the use of grates and perforated raised floor tiles. This will allow for the efficient cooling of high-density loads and insure cold air is strategically routed to equipment. This advantage is even more clear when compared to overhead air distribution, which usually reduces air quality by carrying pollutants upward.

Overhead air distribution also makes temperature control difficult, as mixed air has a uniform temperature that is usually either too hot or too cold, while energy use is increased because warm air rises and more energy is necessary to push cold air down. One of the biggest benefits txo a raised floor is the flexibility it offers. The type and location of raised floor tiles is easy to change or exchange, and temperature and air quality may be maintained by adding floor diffusers. Facilities preparing for an upgrade also enjoy easy access to the underfloor space to update technology with minimal disruption.

Bus bars are manufactured in a variety of coating materials which supply differing conductivity levels. They also come in a host of shapes and sizes, which also affect the ampacity of the product Ampacity refers to the maximum amount of electrical current a conductor can carry before suffering critical levels of deterioration.

As mentioned above, bus bars distribute electricity with ease and flexibility. Following is a list of the major benefits associated with the use of a bus bar system:. Reduced Cost of Ownership: Costs following installation are low. Bus bar systems reduce the need for construction and electrical work.

Should a new power connection be needed, an additional plug-in unit can be placed at any point along the existing open-access slot. Gridd Power makes it quick and easy to connect devices and appliances that need power to the Gridd system. Gridd Power is at the cutting edge of power distribution technology. Its simplified, pre-configured part structure has the following components: feed module, track, interlink, power and data enclosure, general purpose floorbox, furniture interface and desk mount.

Before Gridd Mobile, executing moves, adds and changes to wiring required an arsenal of tools to make even the most simple changes. Valuable time was spent pulling up carpet, opening ceilings, cutting into walls and even x-raying concrete.

Now, with Gridd Mobile, workers can see exact power, voice and data cabling right through the floor—right through the carpet, hard surface or steel flooring component—in an instant. Gridd Mobile plans range from Basic , which provides as-builts, project data, and technical resources to Platinum , which includes CAD design services and routine site visits to ensure the accuracy of the as-builts and attic stock.

This brings us to applications. Following is a list of some of the applications that can benefit from these products:. FreeAxez has an allegiance to innovation and creativity. We have positioned ourselves to respond to the rapid changes in our industry and are willing to take on the toughest problems—both now and in the future. The future is uncertain.

FreeAxez is committed to helping our clients take on the ever-changing challenges of our modern world. About Us Why Gridd? Call Now Send free sample. What is a raised floor? Need support for your project? Call to speak to an advisor. Call Now. The Construction Specifications Institute CSI and Construction Specifications Canada CSC have designated the following Masterformat numbers and titles for this standard type of raised flooring: 09 69 00 — Raised Access Flooring 09 69 13 — Rigid Grid Access Flooring The traditional post and panel raised access flooring system was introduced in the s with the primary purpose of providing cooling and air flow to the large computer mainframes of that era, as they ran exceptionally hot.

The key components of the traditional post and panel flooring system are as follows: Post pedestal : This is a vertical, adjustable post that supports the floor panels mentioned above.

The panel is attached with screws to a steel post at each corner 4 posts per panel. The posts are usually bonded to the subfloor with an epoxy resin-based adhesive and with mechanical fixings, if required. Stringer: This is a horizontal piece of hardware that connects to the post head, adding additional lateral floor support, if needed.

Additional structural support and lighting are often needed when a floor is raised enough for a person to crawl or even walk through. Added requirements may include fire suppression systems and cable tray systems. There are several things to consider when using a traditional raised access flooring system. Fill out the testimonial. Call Now Need support for your project? Hazards and Challenges Beneath a Raised Floor. Current applications of the raised access floor.

Stringerless raised floors: With this system an array of pedestals posts provide the necessary height for routing cables and also support each corner of the floor panels. No horizontal stringers are required. Stringered raised floors: This system is composed of an array of steel pedestal assemblies that consist of a steel base plate, a tubular upright, and a head that are uniformly spaced on 2-foot centers and mechanically fastened to the concrete floor.

Structural platforms: The components of this system are constructed of steel angles or channels that are welded or bolted together to form an integrated platform used to support equipment.

Truss assemblies: This system utilizes attachment points to the subfloor to support a truss framework on which the floor panels rest. When cables are run in a hot aisle, they may be run in the same space under a raised floor with the flexibility to end the cables anywhere necessary. This option also means that ceiling height and overhead obstacles like sprinkler systems are not issues. Raised floors make accessing cabling worlds easier, with the ability to access cables at any point in the under floor space by simply removing select raised floor tiles rather than a complicated system involving a handful of people and ladders.

Finally, raised floors offer build-in grounding grids to ground sensitive equipment, as well as water distribution lines for reduced risk in case of water leaks. Adding dampers, integrated fans and perforated data center floor tiles makes raised floor systems the ideal platform for supplemental cooling devices as it optimizes airflow control on a rack-by-rack basis. The use of perforated data center floor tiles allows you to concentrate cooling and airflow exactly where it needs to be, and areas that are running hot may be addressed by replacing a raised floor tile with a higher air flow version.

Finally, many would argue that raised floor systems offer better aesthetics than overhead cable trays as well, as running cabling under the floor keeps an interior space neat and clean. Overhead wiring systems often run under light fixtures, casting shadows over work areas and cabinets, while running cables under the floor space keeps the entire data center bright, clean and neat. While an argument can certainly be made for both overhead cabling trays and raised floor systems, raised floors remain the industry standard for a reason.

They offer the flexibility, scalability and airflow management that is simply impossible with an overhead system, as well as a cleaner and safer environment that everyone can appreciate.