CS201552B1 - Soundabsorbing suspended system - Google Patents

Description

The present invention relates to a sound absorbing suspension system for sound absorption in confined spaces where a reduction in noise levels is desired.

Sound-absorbing systems are used for acoustic treatment of enclosed spaces, which are most often placed on the ceiling or on walls. .-. h ·,

Sound absorption systems are used especially where it is necessary to reduce the level of disturbing noise, such as in production, sports or sports. railway station halls and in, rooms, machine-counting stations and dispatching, workplaces. . j

As sound-absorbing systems it is mostly used constructions working on the resonance principle. These sound absorbing systems are made of a perforated cover, behind which a layer of porous, acoustically absorbing material is inserted. The shape of the perforated cover is made with respect to the required acoustic properties of the sound absorption system and also with regard to the visual adaptation to the given interior.

Perforated covers are usually made of metal materials with surface treatment corresponding to the requirements of the given space. Covers made of fiberglass plastics are also used.

Said sound absorbing poměrně'značnou systems have ^one basis weight and are costly. For these reasons, they are not always implemented in all areas where a reduction in the noise level would be desirable. In view of their considerable cost, they are therefore used only in those cases where they are already in use: ie necessary for acoustic, or. aesthetic point of view.

These drawbacks are overcome by the soundbabsorbent suspension system of the invention. the essence of which is that the acoustic panels are made of a porous acoustically absorbing material. As a porous material, it is most often used in slabs made of mineral fibers, eg glass, bonded to each other. Since individual fibers are released from the sheets of these porous materials, the sheets are sealed in a polyethylene film.

The acoustic elements are provided at the edge with at least two openings through which the suspension rods pass. These apertures are lined shrinking, to ensure the mechanical connection of plates of porous acoustically absorptive material _c and polyethylene film.

The mechanical distance of the individual acoustic elements on the suspension rods is performed by the distance tubes slid on the suspension rods between the acoustic elements.

The sound absorbing system thus formed, consisting of acoustic elements on the suspension rods, is hung to the ceiling structure by means of hook bars. Here, one end of the tie rod is rigidly connected to the ceiling structure and the other end of the tie rod is provided with a hook. The suspension rod of the sound absorbing suspension system is threaded onto this hook during assembly.

The sound absorption system thus formed has the following advantages over known solutions:

Reduces costs by up to a quarter of the cost of sound-absorbing systems with metal perforated housings used so far, has a lower weight compared to existing designs, so retrofitting is possible even when the static load-bearing capacity of the ceiling makes it difficult to overload it can be washed by known means if necessary, simplifies and simplifies the assembly of acoustic systems, in many cases it eliminates the need for spatial scaffolding, enables such an architectural solution of the interior of large halls where the roof structure is visible and constitutes an important architectural element , furthermore, it allows the interior to be illuminated by a skylight and prevents unwanted condensation of water vapor in the space between the roof structure and the sound absorption system.

An exemplary embodiment of the invention is shown in the accompanying drawing, in which Fig. 1 shows a cross-sectional view of the sound absorption system in the direction of the suspension rod in the AB direction as shown in Fig. 3; Fig. 2 shows a view of the sound absorption system in 3, and FIG. 3 is a view of a sound absorbing absorber, which is perpendicular to the axes of the suspension rods in the CD direction, as shown in FIG.

Claims (1)

SUBJECT Sound absorbent suspension system comprising at least two acoustic elements, characterized in that the acoustic elements (1) of porous acoustically absorbing material encased in polyethylene film are provided with at least a system in the EF direction as indicated by the arrow in Fig. 1. all images identical. The sound-absorbing suspension system consists of acoustic elements made of plates of porous acoustically absorbing material 1, which are enclosed in a thin polyethylene film 2. These acoustic elements are provided with two openings, which are flanked by the shrouds 3. Through these openings pass the suspension rods 4, on which spacers 5 are inserted between the individual acoustic elements for mechanically distancing the distance between the acoustic elements. The assembled sound absorption system is rigidly connected to the ceiling structure by means of hinges 6 connected on one side to the ceiling structure, whereby suspension rods of the system are suspended in the suspension hooks δ. The sound absorbing system thus manufactured is easy to mount by simply suspending it on pre-prepared hook-pull rods in the ceiling structure. Also, disassembly, in the case of line repairs that are located in the space above the sound absorption system, is easy. If necessary, it is also possible to carry out washing with a stream of water without disassembly, or after disassembly in another area. From an architectural point of view, it is possible to create differently structured surfaces so that individual parts of the sound-absorbing system are suspended under the machine structure in mutually perpendicular axes, or the color effect of acoustic elements is also used. It is particularly advantageous to use a sound absorbing suspension system in cases where it is desirable from a technical or architectural point of view to leave a clear view of the supporting structure of the space. I will find two holes for suspension bars (4), which are hinged (6) fixed to the ceiling structure, being between acoustic ones. the elements (1) are provided with the suspension bars (4) with spacers (5).