NL8300095A - ACOUSTIC CEILING PLATE. - Google Patents

Description

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Acoustic ceiling plate.

The invention relates to an acoustic ceiling panel and more particularly provides a ceiling panel, which has acoustic properties without the usual pin-punched perforations normally arranged in acoustic ceiling panels.

It is known to manufacture ceiling panels with grooves in their surface, as shown in Design Patent No. 238,573 and Design Patent No. 249,367.

Furthermore, U.S. Pat. No. 3,444,977 shows a short-slit acoustic panel cut in the front face of the panel. A number of ceiling panels are also known in the trade which have strongly notched surfaces. It should be noted, however, that, as far as is known, none of the notched construction products that exist or have existed in the past are able to ensure a desired acoustic value without the use of pin punched perforations, which tend to be aesthetically pleasing detract from the decorative effect of a grooved plate with simple rectilinear geometric patterns.

Overview of the invention.

The present invention is directed to an acoustic ceiling board consisting of a mineral fiber sheet structure with a porosity such that the board has an airflow resistance of about 1220 cgs rayls or less, according to a modified test method using the Leonard airflow device described. is in the article by RW Leonard, published in The Journal of the Acoustical Society of America, Volume no. 17, p. 240, 1946, such that a 0.50 - 0.55 NRC value is achieved when tested according to ASTM C423-77, Sound Absorption of Acoustical Materials in Reverberation Rooms. A decorative pattern is placed on a surface of the plate and this pattern is a number of grooves cut into the surface of the plate.

The grooves are provided with side walls, which are perpendicular to the plane of the plate. The side walls of the grooves, and therefore the grooves, are sized and 8300095 -2-4 '2 in size to provide at least 322 cm of sidewall area per 2 0.0929 m of sheet area.

Brief description of the drawing.

The figure of the drawing is a cross section of a ceiling plate according to the invention.

Description of the preferred embodiment.

As shown in the drawing, the acoustic ceiling plate 2 is made of a mineral fiber structure, which is about 19 mm thick. On the face of the ceiling plate, as shown in the drawing, a decorative pattern is applied to this surface of the plate. The pattern is a number of grooves cut into the surface of the plate and the grooves extend parallel from one side of the plate to the other. These grooves 4 are formed with side walls 6 which are perpendicular to the plane 8 of the ceiling plate. In the embodiment shown in the drawing, the grooves are 3.2mm thick and 6.4mm wide and spaced 9.6mm apart. The grooves in the drawing are such that the sidewall surface of the sheared pattern is such that 322 cm of sidewall surface 2 is formed per 0.0929 m sheet area. The ceiling plate is provided with a paint layer, which is normally sprayed on the ceiling plate. The paint layer or layers will be applied to the raised zones 10 and the recessed zones 12, which lie in or parallel to the plane of the ceiling plate. These zones are unable to function as efficient sound absorbing surfaces. The painting of the surface of the plate provides these flat zones with a smooth structure-free surface. Since the grooves are cut into the ceiling plate, the side walls of the ceiling plate do not have a smooth surface and are slightly open in nature, and this open structure is not clogged by the paint layer applied to the plate. In addition, the nature of the plate is such that it is made on a fourdrinier machine 35 that it has measured less air flow resistance across the plate and has a greater air flow resistance measured through the plate or perpendicular to the surface 8.

The invention herein is a particularly acoustic ceiling product, because the decorative appearance of the panel and its acoustic properties are produced by cutting a row of grooves in the plate surface. The cutting process is called -rill green ”, in which a series of cutting members cut the grooves in the plate. While the surface of most conventional ceiling panels is perforated with acoustics pegs or splitting dies, the product herein achieves its desired acoustic properties by creasing. Although in many conventional ceiling-10 products the plate perforations are necessary for sound absorption and are sometimes decorative, there are some products where the perforation detracts from the appearance. In these cases where perforations are not desirable, the ceiling panel manufacturer may attempt to conceal the perforations by covering the plate surfaces with an acoustically transparent material such as fabric or thin film or by positioning the perforations so that they mix with an embossed or printed decorative surface pattern. In the invented product herein, a simple rectilinear geometric pattern on a structureless surface is desired, and here the perforations would rival the intended visible appearance of the ceiling. A conventional slab formula for a ceiling product is as shown below.

Ingredients Weight percent 25 mineral fiber 73 - 84% organic fiber 5 - 4% starch 7-5% clay 15-5%

The above provides the basic ingredients of a mineral wool fiberboard and the approximate range in which these products appear. In many cases, the mineral fiber ingredient consists of unused mineral fiber and "broke", which is waste ceiling board, which is then reprocessed into a new ceiling board. "Broke" in particular has fine particulate material in it and this fine particulate material will affect the porosity of the plate. Listed below are two sheet structures designated as Formula 1 and Formula 2. Both sheets have the same material composition as noted above for the 40 sheet formula. However, in Formula 2, 27.5% of the ingredient is 8300095. -4- provided by broke. In formula 1, broke only contains processed 20.0% of the ingredients and this broke was used to remove dust particles and therefore formula 1 has less fine particulate material. Considering the two products described above, their acoustic values are as follows:

Cgs Rails. NRC (4 Freq.Avq).

Formula 1 1220 0.54

Formula 2 2280 0.42

Sound absorption is dependent on the porosity of the plate formula and the size of the surface exposed to the sound source. When comparing a perforated pattern with a creasing pattern, both products have vertical surfaces, which will be the acoustic value. and the horizontal surfaces of both patterns will have a minimal effect on the acoustic value The porosity of the plate should give an air flow resistance (AFR) of approximately 1220 cgs rayls or less As can be seen in the examples above of formula 1 and formula 2, when a product has the 1220 cgs rayls 20 value, it will get the 0.54 NRC value, which is an acceptable value to be able to call the product an acoustic product When the air flow resistance increases as in formula 2, the NRC value goes down and the product depicted in formula 2 is not considered an effective acoustic product.

While many conventional mineral fiber sheet formulas, when perforated in a normal manner, will yield an NRC in the range of 0.55 - 0.65, these products have been found to yield an essentially non-acoustic product 30 when used alone were creased. The creasing alone therefore does not contribute to the desired acoustic value. It is the creasing with the desired amount of open vertical surface plus a certain airflow resistance for the. plate, which gives the desired combination to produce an acoustically creased ceiling plate.

8300095

Claims (4)

1. Acoustic ceiling panel, characterized by: a) a mineral fiber sheet structure with a porosity such that the panel will have an air flow resistance of approximately 1220 cgs rayls or less, b) a decorative pattern placed on a surface of the plate, which pattern consists of a number of grooves cut into the surface of the plate, which grooves have side walls perpendicular to the plane of this one surface; and c) said side walls of said grooves being so numerous and sized that they provide at least about 322 cm of side wall area per 2 0 0 929 m of sheet area. Acoustic ceiling panel according to claim 1, characterized in that the grooves of the pattern are parallel to each other and cut into the surface of the panel. 3. Acoustic ceiling panel according to claim 20, characterized in that the grooves cut into the ceiling panel are approximately 6.4 mm wide and approximately 3.2 mm deep and spaced approximately 9.6 mm apart. . Acoustic ceiling panel according to claim 25 l, characterized in that the horizontal surfaces of the ceiling panel in the plane of the ceiling panel or parallel to the plane of the ceiling panel are smooth and structured on their surfaces and the side walls of the ceiling panel are perpendicular to the smooth structureless 30 surfaces. 8300095