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Sound Bar Louvre – SBL2
Sound Bar Louvre
Detailed Information - SBL2
Width Range
Height Range
Length
 [mm]
dB(A)
reduction
Weight
[per m2 face area] [Kg]
200- 2400 500 - 2250  60020 87
Insertion Loss - SBL2
 631252505001000200040008000
510142227252117
Features

In modern buildings there is an increasing need to provide large air flow openings for plant and equipment, whilst minimising noise impact effects on the environment.

The Q-Tech range of aesthetically-designed acoustic weatherproof louvres not only acts as an efficient sound barrier, but also permits the accurate prediction of the corresponding resistance to air flow. This enables the designer to confidently match the louvre size precisely to the building plant’s needs.

Two models are available in the range, designated SBL1 (300mm deep) for standard applications and SBL2 (600mm deep) for more demanding applications. These units are available in standard module height increments of 250mm, up to a single module size of 2400mm wide and 2250mm high. The design of the louvre profile ensures a high level of sight-proofness and an aesthetically-pleasing view from below.

Larger opening sizes are catered for by the use of a number of individual modules, site-assembled. This results in simpler site handling and a reduced risk of site damage. Should architectural form require special shapes or sizes please contact your Q-Tech distributor for assistance.

Acoustic Performance

The acoustic performance of the SOUND BAR acoustic louvre range is based on tests conducted in Australia in accordance with AS1191:1985. The Standard requires the test louvre to be placed in a partition wall dividing two suitably sized reverberation rooms. This test Standard determines the ‘Sound Transmission Loss’ which is the ratio of the sound power incident onto the louvre to the sound power transmitted through the louvre.

The transmission loss is numerically equal to the ‘Insertion Loss’ and can be applied in a similar fashion.

It has become common practice to report the performance of acoustic louvres in terms of ‘Noise Reduction’. This is the difference in sound pressure levels between a reverberant room and the free field. The numerical difference between ‘Sound Transmission Loss’ and ‘Noise Reduction’ is 6dB.

For convenience the performance data has been quoted as ‘Noise Reduction’ in bold, with ‘Sound Transmission Loss’ in smaller type below.

The performance data is based on tests conducted in Australia using Australian-sourced and manufactured materials.

Aerodynamic Performance

The aerodynamic performance of the SOUND BAR acoustic louvre range is based on tests conducted by the CSIRO. These test results were obtained by carrying out a Type A test (open inlet and open outlet) on their air flow test facility conforming to BS848:Part 1, 1980.

Figure 2. details the resistance to air flow for both SBL1 and SBL2 louvres. This data is based on an open inlet and open discharge situation as would be found in a typical plant room application. The pressure loss is not only affected by the area of the louvre, but also by the louvre height. A 500mm high louvre will have a much higher flow resistance than a 2250mm high louvre for the same face velocity.

When bird mesh is used the pressure loss increases by 2%.

Construction

The standard SBL1 Sound Bar acoustic louvre construction consists of a 1.2mm thick galvabond case with a return fold all around to increase unit rigidity. The 300mm deep louvre is manufactured from galvabond and filled with acoustic infill.

The SBL2 unit is similar in construction, but also includes an additional 300mm deep module supplied separately. Each splitter is filled with sound-absorbing material.

The infill material is covered with gauze scrim to prevent erosion of the fibres and then encased in perforated metal to enhance the acoustic performance and to prevent mechanical damage.

The Sound Bar louvre range can be manufactured from aluminium or anodised aluminium on request. It is important to consider whether full aluminium construction (including perforated metal) or partial aluminium (externally-visible sections only) is required.

Q Seal lining of the infill material can also be provided to suit applications where regular washing of the perforated metal surfaces may be necessary or where contaminants are present, such as oils, etc. Note, the use of an impervious lining will impact on the acoustic performance of the Sound Bar Louvres.

Other finishes such as stainless steel are available on request.

Elta Group