Tall Office Partition Systems – Points to Consider Before Buying

Under some conditions, a large partition system that extends from a floor to the ceiling is desirable to control the noise in an office environment. You will find certain issues that have to be addressed before investing in this partition system.

One issue is fire safety. A high system that blocks the exit signs, fire extinguishers, sprinkler system or audible alarm noise might be deemed unsafe by the neighborhood fire marshall fornecedor de divisorias piso teto. This would require its removal or modification to generally meet the neighborhood fire codes, per the Fire Marshalls demands.

One assumption that’s dangerous, is thinking that you know your ceiling height. You may think that you know the ceiling height, but a cautious measurement is required. Ceilings often sag in unsupported areas, and could vary by an inch or maybe more in several places. It is important to assess the distance from a floor to the ceiling, exactly where the panels will meet up with the ceiling, to be sure that the panels will fit. In cases where you’ve a normal “drop ceiling” the height can be adjusted upward, by twisting the support wires holding the ceiling framework. In case of a solid ceiling, there isn’t this option. The panels must be slightly shorter compared to the ceiling height, or they will not fit.

Then there’s the issue of air flow. Office environments will most likely have some type of ventilation given by the air conditioning equipment or heater, or perhaps just windows. Enclosing a proposed office by using a floor to ceiling partition system could impede the airflow compared to that section and require venting. Venting by means of low and high vents can accommodate some minor amount of convection. As hot air rises, it could flow from the propose office through the high vents and thus create a slightly lower air pressure at the bottom, where cooler air can flow into the proposed office through the low vent. A qualified panel manufacturer should have the ability to provide the vents, built into the panel system to accommodate airflow into each office.

Lighting is another concern. Panel systems are normally opaque, so they block light. If an office has its own lighting then the problem is mostly solved. However, in case a propose office does not have lighting, then some type of window arrangement built into the panel system would be needed to provide some light because office. It is a good idea to take advantage of natural lighting that comes through skylights, or windows facing outside. In case a partition system has built in windows in strategic locations that accommodate the use of outside natural lighting, then this might reduce timeframe where in actuality the electric lights are switched on throughout the day, thus reducing your power consumption.

One valid reason that tall partition systems are utilized is always to supremely control the noise. Short panel systems are not so capable of this, as sound travels as a “wave”, and simply goes over the the surface of the panel systems and travels through the office, until absorbed by soft treatments, such as carpet, drapes, or other absorbing structures. However, sound waves can transfer via a panel system too. The materials used in the panel is of concern to those seeking maximum noise reduction. Consider this: Sound travels most efficiently through dense, hard mediums. Thus, sound travels better (and faster) through water, than air. Hard mediums can transfer sound a lot better than soft mediums. Another exemplory instance of this is considering ballistic plastics. A glass surface is hardly bullet resistant because it is hard, and brittle. It cannot withstand the kinetic energy of a bullet, as it cannot flex enough to absorb the energy without breaking. Polycarbonate is a form of clear flexible plastic. Polycarbonate is more bullet resistant than glass, because it is more flexible, and can absorb the impact bette, without breaking. For example, Kevlar fabric is bullet resistant largely because of it’s combination of great flexibility and high tensile strength.

Now let’s return to the sound issue. Panels that are produced from hard materials will transmit sound from side to another, more effectively that panels produced from softer materials. Softer materials are harder for sound to transfer through. They absorb better, and transmit less efficiently. Shear weight is another plus, for the better sound acoustic rated panels. Considering the issue of sound travelling from side of a panel to another side, a weightier weight panel will resist this transfer better than a light one.

If you need to maximally control and reduce the noise in an office, then the answer is to locate a panel that has a relatively “soft and heavy” internal structure. This may insure that sound is likely to be absorbed, and not transfer over the panel core, in any great degree. The resistance of sound travelling from side of a panel to another side is known as “sound blocking”, which differs from sound absorption. Typical fiberglass cored panels, are great for sound absorption, however if the fiberglass is housed in a hard perforated shell, or surface, the sound blocking is likely to be compromised. 1/2″ Thick sound rated boards, are soft enough to absorb sound, flexible enough to stop sound transfer, and heavy enough to block sound transfer. This sort of construction can work better for noisy offices than a hard shelled, fiberglass cored panel. Sound absorption is not the only factor.

The final issue to be viewed is the bond system for the panels. Many manufacturers provide connectors that must definitely be fastened with screws or bolts from below and above the panel system. If the panels head to the ceiling, then it might be impossible to fasten the connectors. If tools are expected, you could wind up needing a complete 12″ of space above the panels, to accommodate the use of a phillips screwdriver for a normal fastener system consisting of screws. Some manufacturers may only require an inch approximately to get the connectors in place. This is ideal. The small gap at the very top could easily be filled in by utilizing upholstery foam, cut to the appropriate width and height. It is a good idea to check with producer of the panel system, and ask the way the connectors are installed, and how much room is necessary to accommodate the use of tools (if required) to connect the panel system together.

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