EP2098652A2 - Acoustic absorber unit - Google Patents

Abstract

The unit (10) has an airborne sound absorbing integral plate (18) suspended from a wall and/or roof of a room i.e. paper machine hall. The plate is partially surrounded by airborne sound permeable sheet-like layer (20), and a frame (22) is attached to an outer edge of the plate. The airborne sound absorbing material (24) e.g. polyurethane foam, plain wood, glass wool, rock wool, hemp wool and/or wood wool, is placed between the plate and the sheet-like layer. The plate is angularly placed relative to the wall and/or angularly suspended from the roof. An independent claim is also included for a method for reducing sound level in a room.

Description

The invention relates to a sound absorber unit which can be attached to a wall or ceiling of a room, in particular a paper machine hall. It also relates to a method for reducing the sound pressure levels in a room, in particular paper machine hall, using such Schallabsorbereinheiten.

In a paper machine hall and in particular in the area of the headbox, the wire section, the press section and parts of the dryer section of the paper machine, high sound pressure levels are usually emitted as a result of the technologies used there. So far, efforts have been made to gradually reduce these high sound pressure levels by constructive optimization of individual machine components and assemblies. However, at present the sound pressure levels in the areas concerned, in particular in the areas of the headbox, the wire section, the press section, as well as parts of the dryer section, are often still above the locally prescribed limits for the wearing of hearing protection.

In order to reduce the noise on the operator level, particularly in sound-reflecting halls, sound-absorbing elements can be mounted on the hall ceiling and on the hall walls. By increasing the average sound absorption level or the reduction of the reflected sound waves in the hall, a reduction of the noise emissions at the operator level is then achieved.

The installation of sound absorbing elements on the ceiling and on the walls in the areas of the head box, the wire section, the press section and parts of the dryer section in a paper machine hall, i. in the vicinity of humid or wet noise areas, however, is limited because of the sensitivity of many acoustic or sound absorbing materials against moisture, water and steam. Thus, their sound absorption in wet environments is in most cases significantly lower than in a dry environment.

From the DE 20 2006 000 201 U1 is a trained as a layered body, attachable to ceilings or walls room element is known which comprises an outer support shell in the form of a building board and serving as a functional layer insert of pollutant reducing material. In this case, an air-permeable layer is provided between the tray and the functional layer, which is provided with a sound-absorbing insulation material.

In the DE 43 30 407 C1 and the DE 44 42 053 C1 each one by gluing and / or dowels attached to the walls or the ceiling of a swimming pool mounted insulating covering in the form of insulation boards made of polystyrene foam described on the room side serving as a vapor barrier aluminum foil is laminated.

From the EP 1 820 915 A1 For example, an acoustic wall or ceiling panel is known which has a support structure formed by a wood chipboard or wood fiber board laminated with a porous cover layer which may be a micro-perforated plastic film.

The invention has for its object to provide an improved sound absorber unit and an improved method of the type mentioned above, with which a more effective reduction of occurring in the room or paper machine hall sound pressure level is guaranteed. In particular, a reduction of the sound pressure level in the vicinity of paper machines, especially at the operator level in the area of the headbox, the wire section, the press section and parts of the dryer section by the installation of appropriate, especially against moisture, water and steam insensitive sound absorber units should be possible. In addition, the sound absorber units should be as inexpensive as possible, easy to assemble, lightweight and easy to manipulate, easy to clean, hygienic resistant and e.g. for condensing water to be dissipative.

With regard to the sound absorber unit, this object is achieved according to the invention in that it comprises at least one self-supporting plate which absorbs airborne noise and is at least partially surrounded by an airborne sound, in particular a film-like coating. The airborne sound-absorbing self-supporting plate is preferably coated with an airborne sound, water and / or vapor-tight, in particular tear-resistant film.

Such sound absorber units can be installed, for example, on the ceiling and the walls in the vicinity of noise emitting areas such as a paper machine, especially in the vicinity of the headbox, the wire section, the press section and parts of the dryer section of the paper machine. The areal elements absorb the airborne noise emissions from the noise emitting areas, and the airborne sound reflections at the room boundaries absorb their propagation into the room or the paper machine hall prevented. In this case, an essential property of these planar elements or sound absorber units is described by the acoustic parameter sound absorption or sound absorption degree or "sound deadening degree".

While the hitherto conventional acoustically effective elements in wet and wet machine areas have been constructed only as acoustically above all reflective elements made of metal, plastic, etc., since moisture, moisture and steam limit the absorption of the conventional sound absorbing materials such. Fibers, foams, fabric fabrics, etc., the inventive Schallabsorbereinheit whose airborne sound absorbing self-supporting plate itself can be quite sensitive to water, in conjunction with a water and / or vapor-tight film as a coating virtually without affecting the sound absorption, especially in such moist and wet Areas are used. To increase the mechanical strength of the film should be expediently tear-resistant.

Conveniently, a frame is at least partially attached to the outer edge of the airborne sound absorbing self-supporting plate and the coating or the film preferably pulled over this frame. This frame may for example be provided with rounded edges. Such a frame not only serves to improve the appearance, it also brings with it a reduction in the risk of cracks in the coating or foil around the airborne sound-absorbing self-supporting plate.

Between the airborne sound-absorbing self-supporting plate and the particular film-like coating further, especially softer airborne sound absorbing material may be introduced.

In this case, the further airborne sound absorbing material may be provided, for example in the form of a foam, a fiber material, a fabric and / or the like.

The foam may comprise, for example, at least one PUR foam.

The fiber material preferably comprises rock wool, glass wool, wood wool, flat wool, hemp wool and / or the like.

In certain cases, it may also be advantageous if the further airborne sound absorbing material comprises at least one woven fabric.

The airborne sound-absorbing self-supporting plate may consist in particular of a fiber material and preferably at least partially of wood wool, rock wool or glass wool.

The acoustic properties of the airborne sound-absorbing, self-supporting panel material may in particular be selected such that the panel material has the highest possible degree of sound absorption over the respective relevant frequency range or over certain frequency ranges. In particular, combinations of different airborne sound absorbing, even softer materials with the self-supporting panel material are possible. Thus, between the airborne sound-permeable coating or film and the plate material to change or increase and optimize the degree of sound absorption further acoustically absorbent materials, such as foams, fiber materials, etc. may be inserted. The softer, for example, further airborne sound absorbing materials can either be at the source of the noise facing side or on the side facing away from the noise source side or be provided on both sides of the airborne sound absorbing self-supporting plate. As already mentioned, here, for example, fibers such as rock wool, glass wool, wood wool, flat wool, hemp wool, etc., foams such as polyurethane foams or types of fabric, such as woven fabrics, can be used.

If the airborne sound-absorbing self-supporting plate is stiff enough, then the sound absorber unit can be suspended without costly frame or support structures, in particular also perpendicular to the relevant wall and also horizontally from the ceiling. As the board material is fiber material and here in particular wood wool, rock wool or glass wool, wherein e.g. a Heraklith plate is conceivable. The further, in particular softer airborne sound absorbing materials can contribute to the acoustic effect of the planar elements or sound absorber units, but are not absolutely necessary.

It is particularly advantageous also when the airborne sound-absorbing self-supporting plate which is at least partially surrounded by an airborne sound, in particular a film-like coating, is inclined with respect to the relevant wall or is suspended obliquely from the relevant ceiling.

Thus, for example, very moist, vapor-emitting areas in which the coating or the film produces water or steam condenses or misting the coating, the water flowing off the coating and, for example, into one or more water leading or dissipating Drain the gutters.

According to a preferred practical embodiment of the sound absorber unit according to the invention, the frequency characteristic of the sound absorption coefficient of the sound absorbing unit on the material of the airborne sound-absorbing self-supporting plate, the material or materials of further airborne sound absorbing material, the suspension distance from the respective wall or ceiling and / or the inclination with respect to relevant wall or ceiling to the frequency characteristics of the sound pressure emissions of the adjacent sound emitting area, for example, adapted to the frequency characteristics of the sound pressure emissions of the headbox, the wire section, the press section or at least a portion of the dryer section of a paper machine. In the frequency range of the maximum sound pressure emissions of the respective sound-emitting regions, for example a paper machine, the sound absorption coefficient of the planar sound absorber units should therefore be as high as possible.

According to a preferred practical embodiment of the sound absorber unit according to the invention, the airborne sound-absorbing self-supporting plate is in direct contact with the particular film-like coating.

In this case, the airborne sound absorbing self-supporting plate can be inserted without firm connection with the particular film-like coating in this or even preferably by gluing firmly connected to the particular film-like coating.

The sound absorber unit can thus in particular also be constructed so that the airborne sound-absorbing self-supporting plate material is in direct contact with the coating or the film. This contact occurs on uneven or rough surfaces of the board material, eg in fiber materials or foams as a plate material, at several points, ie at points of contact of the film with the plate material. In flat or smooth surfaces of the plate material, in contrast, results in a full-surface contact.

If the connection between the board material and the film results merely by inserting the board material into the film, the contact is formed by the gravitational force, provided the respective sound absorber unit is not vertically aligned. A permanent connection of the board material with the film can be made in particular by gluing, for example by means of an adhesive or by heating.

• Sehr hoher Schallabsorptionsgrad im tieffrequenten Bereich durch Ausbildung einer gedämpften, tieffrequenten Plattenresonanz des selbsttragenden Plattenwerkstoffs, generiert durch den Platte-Folie-Verbund.
• Weitere Erhöhung des mittel- und hochfrequenten Schallabsorptionsgrades durch die akustisch offenen, vergleichsweise großen Seitenflächen des selbsttragenden Plattenwerkstoffs.
• Geringeres Gesamtgewicht der erfindungsgemäßen Elemente.

The advantages of such a structure include, but are not limited to:

• Very high sound absorption coefficient in the low-frequency range by forming a damped, low-frequency plate resonance of the self-supporting plate material, generated by the plate-film composite.
• Further increase of the medium- and high-frequency sound absorption through the acoustically open, comparatively large side surfaces of the self-supporting panel material.
• Lower overall weight of the elements according to the invention.

An expedient practical embodiment of the sound absorber unit according to the invention is characterized in that the film-like coating, in particular, touches the airborne sound-absorbing self-supporting plate in a planar manner.

In this case, the airborne sound absorbing self-supporting plate can be suspended over the particular film-like coating, so that the airborne sound absorbing self-supporting plate is located in the tensioned film-like particular coating.

The combination of the particular fibrous plate material with the film leads to an acoustic synergy of the two materials over a very wide frequency range.

As a function of the film thickness, which may for example be in a range from about 2 μm to about 5 mm, airborne sound transmits through the film in a frequency-dependent manner and is absorbed well by the inner fiber material of the airborne sound-absorbing self-supporting plate from a frequency of about 200 Hz. In addition, the film in combination with the fiberboard forms a plate vibrator which extracts energy from the surrounding sound field in the low frequency range below 200 Hz.

Depending on their thickness, fiber materials usually show good absorptivities in the medium and high-frequency range. This effect is based, on the one hand, on the viscous frictional forces of the air molecules oscillating in the pores between the fibers. On the other hand, the moving air molecules experience momentum losses in the deflections and constrictions or extensions between the fibers.

In addition, in the alternating field of the sound wave, the air is also alternately compressed and dilated. Due to the good thermal contact between the fibers and the air and the thus given especially at low and medium frequencies instead of the usual adiabatic compression isothermal Compression of the air creates thermal losses that deprive the surrounding sound field of energy.

In addition to these mechanisms by which energy is removed from a sound field and the sound field is correspondingly damped, the inventive film-fiber board combination results in significant reinforcements of the so-called skeletal vibrations of the fiber material. The film thus transmits the low-frequency components of the noise spectrum to the fiber plate contacting it, which in turn is thereby excited to flexural vibrations. Without foil, this excitation of the fiberboard would be much smaller. The film thus acts as a membrane amplifier. The bending vibrations of the fiberboard lead to friction losses of the mutually rubbing fibers, which entails an energy reduction in the sound field, especially in the low-frequency range below 200 Hz.

Of particular advantage in this context, when the film surface touches the fiber board, which is achieved for example by the fact that the construction is suspended on the film, the fiberboard is thus in the tensioned film.

In particular, for such a film-plate combination, the airborne sound-absorbing self-supporting plate is thus preferably formed by a pulp board.

The coating may be formed by a film made of plastic, but expediently also by a film consisting of metal or a similar material.

However, if the requirements regarding water resistance or hygienic resistance are lower or not fulfilled, they do exist For example, aesthetic requirements, so the airborne sound permeable coating may at least partially made of air-permeable material such as fabric or fabric in particular. It can be selected in this case, for example, a visually appealing air-permeable material for the airborne sound permeable coating. This is useful, for example, in the maintenance of papermaking plants, where the humidity is in the normal range for open-pored absorption materials.

According to a further preferred embodiment of the sound absorber unit according to the invention, this comprises at least two airborne sound absorbing self-supporting plates, which are sandwiched one above the other and spaced from each other.

The airborne sound-absorbing self-supporting plates can be at least partially surrounded by a common airborne sound transmissive, in particular film-like coating.

Between the airborne sound absorbing self-supporting plates further, especially softer airborne sound absorbing material may or may not be incorporated.

Preferably, the distance between the two superposed airborne sound absorbing self-supporting plates is at most about 300 mm, wherein it is preferably less than 200 mm. Preferably, however, there is always a distance between the plates.

At the outer edge of the airborne sound absorbing self-supporting plates can at least partially attached to this common frame be. The coating or the film is expediently pulled over the common frame.

According to an alternative expedient embodiment, corner pieces are provided in the region of the corners of the airborne sound-absorbing self-supporting plates, the distance between the airborne sound-absorbing self-supporting plates, optionally the distance between interposed further airborne sound absorbing materials and / or the respective distances between the plates and the coating define.

In this case, at least one in particular again the distance between the airborne sound absorbing self-supporting plates, optionally the distance between arranged between other airborne sound absorbing materials and / or the respective distances between the plates and the coating defining intermediate piece may be provided, which is arranged between two corner pieces.

The frame does not have to be continuous. On the contrary, corner pieces may be attached to the corners of the self-supporting plates, which accomplish the distances between the self-supporting plates or the intermediate, in particular soft, absorption materials used or to the film. In particular, for stabilization at greater length spacers can be installed.

The advantages of this corner or intermediate pieces in comparison with the continuous frame parts in the side region are primarily in the higher sound absorption due to the open, especially at large plate intervals comparatively large side surfaces and in the lower weight of Schallabsorbereinheiten.

The inventive method for reducing the sound pressure level in a room, in particular in a paper machine hall, characterized in that using at least one of a wall and / or the ceiling of the room suspended Schallabsorbereinheiten inventive the frequency characteristic of the sound absorption of the sound absorber units respectively on the material of Airborne sound absorbing self-supporting plate, optionally the one or more materials of the further airborne sound absorbing materials, the suspension distances of the respective wall or ceiling and / or the inclinations with respect to the respective wall or ceiling to the frequency characteristics of the sound pressure emissions of the adjacent sound emitting area, in particular the frequency characteristic of the sound pressure emissions of the headbox, the wire section, the press section or a part of a dryer section of a paper machine, is adjusted.

Fig. 1

eine schematische Darstellung einer beispielhaften Ausführungsform einer erfindungsgemäßen Schallab- sorbereinheit.

Fig. 2

eine schematische Darstellung einer weiteren Ausfüh- rungsform der Schallabsorbereinheit, bei der zwischen der Luftschall absorbierenden selbsttragenden Platte und der Folie weiteres Luftschall absorbierendes Ma- terial eingebracht ist.

Fig. 3

eine schematische Darstellung einer schräg von einer Decke abgehängten Schallabsorbereinheit mit zuge- ordneter Rinne für abtropfendes Wasser.

Fig. 4

eine schematische Darstellung einer beispielhaften Anordnung von zwei an einer Decke abgehängten Schallabsorbereinheiten, von denen eine einen relativ kleineren und die andere einen relativ größeren Ab- stand von der Decke aufweist.

Fig. 5

eine schematische Darstellung einer beispielhaften Anordnung von Schallabsorbereinheiten, bei der zwei Schallabsorbereinheiten einmal in einem relativ kleine- ren Abstand und einmal in einem relativ größeren Ab- stand von einer Wand abgehängt sind.

Fig. 6

eine schematischen Darstellung einer beispielhaften Anordnung von Schallabsorbereinheiten, bei der eine Schallabsorbereinheit schräg von einer Decke und zwei Schallabsorbereinheiten jeweils schräg von einer an- grenzenden Wand abgehängt sind,

Fig. 7

eine schematische Darstellung einer weiteren Ausfüh- rungsform der Schallabsorbereinheit, bei der die Luft- schall absorbierende selbsttragende Platte in direktem Kontakt mit der Folie steht.

Fig. 8

eine Draufsicht der in der Fig. 7 gezeigten Schallab- sorbereinheit.

Fig. 9

eine schematische Darstellung einer weiteren Ausfüh- rungsform der Schallabsorbereinheit mit zwei sand- wichartig übereinander angeordneten Luftschall ab- sorbierenden Platten und

Fig. 10

eine Draufsicht der in der Fig. 9 gezeigten Schallab- sorbereinheit.

The invention will be explained in more detail below with reference to exemplary embodiments with reference to the drawing; in this show:

Fig. 1

a schematic representation of an exemplary embodiment of a Schallab- sorbereinheit invention.

Fig. 2

a schematic representation of another embodiment of the sound absorber, in which between the airborne sound absorbing self-supporting plate and the film further airborne sound absorbing material is introduced.

Fig. 3

a schematic representation of an obliquely suspended from a ceiling sound absorber unit with associated channel for dripping water.

Fig. 4

a schematic representation of an exemplary arrangement of two suspended on a ceiling sound absorber units, one of which has a relatively smaller and the other a relatively larger distance from the ceiling.

Fig. 5

a schematic representation of an exemplary arrangement of sound absorber units, in which two sound absorber units are once suspended at a relatively smaller distance and once at a relatively greater distance from a wall.

Fig. 6

1 a schematic representation of an exemplary arrangement of sound absorber units in which a sound absorber unit is suspended obliquely from a ceiling and two sound absorber units are each suspended obliquely from an adjoining wall,

Fig. 7

a schematic representation of another embodiment of the sound absorber, in which the air-sound absorbing self-supporting plate is in direct contact with the film.

Fig. 8

a top view of the in the Fig. 7 sound absorber unit shown.

Fig. 9

a schematic representation of another embodiment of the sound absorber unit with two sandbless superimposed airborne sound absorbing plates and

Fig. 10

a top view of the in the Fig. 9 sound absorber unit shown.

Fig. 1 shows a schematic representation of an exemplary embodiment of a sound absorber unit 10, which via a suspension 12, for example, to a ceiling 14 or a wall 16 (see also 4 to 6 ) can be attached. In the present case, this sound absorber unit 10 is suspended from a ceiling and positioned horizontally or parallel to this ceiling. In this case, the sound absorber unit 10 may in particular be attached to a wall or ceiling of a paper machine hall.

The sound absorber unit 10 comprises a self-supporting plate 18 which is suspended from the respective wall 16 or ceiling 14 and which is at least partly, in this case completely, surrounded by an airborne sound-transmitting coating (in this case for example a film 20).

In this case, the airborne sound-absorbing self-supporting plate 18 in particular with an airborne sound permeable, water and / or vapor-tight, in particular tear-resistant film 20 may be coated.

The outer edge of the airborne sound absorbing self-supporting plate 18 is at least partially surrounded by a frame 22 which is fixed to the plate 18. As based on the Fig. 1 can be seen, the airborne sound absorbing self-supporting plate 18 enclosing film 20 is also drawn over this frame 22.

Again Fig. 1 can also be removed remains between the airborne sound absorbing self-supporting plate 18 and the film 20 both on the upper and on the lower broad side in each case a gap.

The airborne sound-absorbing self-supporting plate 18 may in particular consist of a fiber material. Preferably, it consists at least partially of wood wool, rock wool or glass wool.

The film forming the coating 20 may in particular be made of plastic or of metal or a similar material.

If the requirements with respect to water resistance or hygienic resistance are not met, a covering 20 made of an air-permeable material, such as, in particular, fabric or fabric, is also conceivable, in which, among other things, in particular aesthetic aspects can be taken into account.

Fig. 2 shows a schematic representation of another embodiment of the sound absorber unit 10. In the present case, at least on one side between the airborne sound absorbing self-supporting plate 18 and the film 20 further airborne sound absorbing material 24 is introduced.

The further airborne sound absorbing material 24 may be provided for example in the form of a foam, a fiber material, a fabric and / or the like.

Contains the further airborne sound absorbing material 24 foam, it may be, for example, a polyurethane foam. Contains fiber material, it may be, for example, stone wool, glass wool, wood wool, flat wool, hemp wool and / or the like. Alternatively or additionally, the further airborne sound absorbing material 24 may in particular also comprise at least one woven fabric or the like.

Incidentally, the sound absorber unit 10, for example, at least substantially the same structure as that of Fig. 1 exhibit.

Fig. 3 shows a schematic representation of an obliquely suspended from a ceiling sound absorber unit 10 with associated channel 26 for dripping water.

Fig. 4 shows a schematic representation of an exemplary arrangement of Schallabsorbereinheiten, in which the Fig. 4 left sound absorber unit 10 has a greater distance from the ceiling 14 than that in the Fig. 4 right sound absorber unit 10. Due to the larger distance from the ceiling 14, the left sound absorber unit 10 is effective in a lower frequency range, while the right at a smaller distance from the ceiling 14 right Schallabsorbereinheit 10 is effective in a high-frequency frequency range.

Fig. 5 shows a schematic representation of an exemplary arrangement of Schallabsorbereinheiten, in which two sound absorber units 10 are once suspended at a relatively smaller distance and once at a relatively greater distance from a wall 16. It works in the left part of the Fig. 5 illustrated arrangement in which the Schallabsorbereinheiten 10 have a relatively smaller distance from the wall 16, in a higher frequency area, while those in the right part of the Fig. 5 illustrated arrangement in which the sound absorber units 10 have a relatively greater distance from the wall 16, acts in a relatively low-frequency frequency range.

Fig. 6 1 schematically shows an exemplary arrangement of sound absorber units in which a sound absorber unit 10 'is obliquely suspended from a ceiling 14 and two sound absorber units 10 "at an angle from an adjacent wall 16. Since these sound absorber units 10', 10" are relative to the ceiling 14 and 14, respectively. the wall 16 are inclined, they act in a compared to a ceiling 14 and the wall 16 parallel Schallabsorbereinheit in a broader frequency range.

Fig. 7 shows a schematic representation of another embodiment of a sound absorber unit 10. In the present case, the airborne sound-absorbing self-supporting plate 18 is in direct contact with the film 20th

In this case, the airborne sound absorbing self-supporting plate 18 can be inserted without firm connection with the film 20 in this or even be firmly bonded to the film, for example by gluing.

The film 20 can touch the airborne sound-absorbing self-supporting plate 18 in particular flat. In this case, the airborne sound-absorbing self-supporting plate 18 may be suspended in particular via the film 20, so that the airborne sound-absorbing self-supporting plate 18 is located in the tensioned film 20.

In the present case, the airborne sound-absorbing self-supporting plate 18 surrounded by the foil 20 is suspended, for example, again via a suspension 12 on a ceiling.

Fig. 8 shows a plan view of the in the Fig. 7 reproduced sound absorber unit 10.

Fig. 9 shows a schematic representation of another embodiment of the sound absorber unit 10. In the present case, two airborne sound absorbing self-supporting plates 18 are sandwiched and spaced from each other.

As based on the Fig. 9 can be seen, the arrangement comprising the two plates 18 is surrounded by the film 20.

Between the two airborne sound absorbing self-supporting plates 18 further, in particular softer airborne sound absorbing material 24 may be introduced.

The distance d between the two superposed airborne sound absorbing self-supporting plates 18 is preferably at most about 300 mm, wherein it is preferably less than 200 mm.

At the outer edge of the airborne sound absorbing self-supporting plates 18 may at least partially be attached to this common frame 28. The film 20 is expediently pulled over this common frame 28.

However, it is not always necessary to have a continuous frame. For example, according to the plan view Fig. 10 to is recognizable, in particular, such an embodiment is conceivable in which corner pieces 30 are provided in the region of the corners of the airborne sound-absorbing self-supporting plates 18. In particular, the distance between the sound-absorbing self-supporting plates 18, optionally the distance between further airborne sound absorbing materials 24 disposed therebetween, and / or the respective distances between the plates 18 and the film 20 may be defined via these corner pieces 30.

In particular, on the longitudinal sides between the corner pieces 30 in particular also intermediate pieces 32 may be arranged. These intermediate pieces 32 may in particular again be provided to define the distance between the sound-absorbing self-supporting plates 18, optionally the distance between further airborne sound absorbing materials 24 and / or the respective distances between the plates 18 and the film 20.

About the material of the airborne sound-absorbing self-supporting plate 18, the material or materials of the further airborne sound absorbing material 24 or materials (24), the suspension distance from the respective wall 16 or ceiling 14 and / or the inclination relative to the respective wall 16 and Ceiling 14, the frequency characteristic of the sound absorption coefficient of a respective sound absorber unit 10 to the frequency characteristics of the sound pressure emissions of the adjacent sound emitting area, preferably to the frequency characteristics of the sound pressure emissions of the headbox, the wire section, the press section or a part of the dryer section of a paper machine, adapted.

For example, in order to reduce the sound pressure level in a paper machine hall, the frequency characteristic of the sound absorption coefficient of the sound absorber units 10 may be increased by using sound absorbing units 10 suspended on at least one wall 16 and / or ceiling 14 of the paper machine hall via the material of the airborne sound absorbing self-supporting panel 18, the or Materials of further airborne sound absorbing material 24 bwz. Materials (24), the suspension distance from the respective wall 16 or ceiling 14 and / or the inclination relative to the relevant wall 16 or ceiling 14 to the frequency characteristic of the sound pressure emissions of the headbox, the wire section, the press section or a part of the dryer section of the relevant Paper machine can be customized.

LIST OF REFERENCE NUMBERS

10

Sound absorber unit

10 '

Sound absorber unit

10 "

Sound absorber unit

12

suspension

14

blanket

16

wall

18

Airborne self-supporting plate

20

Cover, foil

22

frame

24

further airborne sound absorbing material

26

gutter

28

frame

30

corner

32

connecting piece

d

distance

Claims (28)

Sound absorber unit (10) which can be attached to a wall (16) or ceiling (14) of a room, in particular a paper machine hall,
characterized,
in that it comprises at least one self-supporting plate (18) which absorbs airborne sound and is suspended from the relevant wall (16) or ceiling (14).
comprises, which is at least partially surrounded by an airborne sound permeable, in particular film-like coating (20). Sound absorber unit according to claim 1,
characterized,
in that the airborne sound-absorbing self-supporting plate (18) is coated with a water-sound-permeable, water-tight and / or vapor-tight, in particular tear-resistant foil (20). Sound absorber unit according to claim 1 or 2,
characterized,
that the absorbent on the outer edge of the airborne sound self-supporting plate (18) at least in regions, a frame (22) is mounted and the coating or the film (20) preferably on this frame (22) is pulled. Sound absorber unit according to one of the preceding claims,
characterized,
that between the airborne sound absorbing self-supporting plate (18) and the particular film-like coating (20) further, in particular softer airborne sound absorbing material (24) is introduced. Sound absorber unit according to claim 4,
characterized,
that the further air sound absorbing material (24) is provided in the form of a foam, a fiber material, a fabric and / or the like. Sound absorber unit according to claim 5,
characterized,
that the foam comprises a polyurethane foam at least. Sound absorber unit according to claim 5 or 6,
characterized,
that the fiber material mineral wool, glass wool, wood wool, flax wool, hemp, wool and / or comprises the like. Sound absorber unit according to one of claims 5 to 7,
characterized,
that the further air sound absorbing material (24) comprises at least one material. Sound absorber unit according to one of the preceding claims,
characterized,
that the airborne sound absorbing self-supporting plate (18) consists of a fiber material, and preferably at least partially made of wood wool, rock wool or glass wool. Sound absorber unit according to one of the preceding claims,
characterized,
that the at least partially permeable by an air-borne sound, in particular film-like coating surrounded (20) airborne sound absorbing self-supporting plate (18) is set with respect to the relevant wall (16) obliquely or diagonally from the respective ceiling (14) suspended. Sound absorber unit according to one of the preceding claims,
characterized,
that the frequency characteristic of their sound absorption coefficient on the material of the airborne sound-absorbing self-supporting plate (18), or the materials of the further airborne sound absorbing material (24), the suspension distance from the relevant wall (16) or ceiling (14) and / or the inclination with respect to the relevant wall (16) or ceiling (14) is adapted to the frequency characteristics of the sound pressure emissions of the adjacent sound emitting area, in particular to the frequency characteristics of the sound pressure emissions of the headbox, the wire section, the press section or a part of the dryer section of a paper machine. Sound absorber unit according to one of the preceding claims,
characterized,
that the airborne sound absorbing self-supporting plate (18) is in direct contact with the particular film-like coating (20). Sound absorber unit according to claim 12,
characterized,
that the airborne sound absorbing self-supporting plate (18) without firm connection with the particular film-like coating (20) is inserted in this. Sound absorber unit according to claim 12,
characterized,
that the airborne sound absorbing self-supporting plate (18) is preferably fixedly connected by adhesion with the particular film-like coating (20). Sound absorber unit according to one of claims 12 to 14,
characterized,
that the film-like coating (20), in particular, touches the airborne sound-absorbing self-supporting plate (18) over a wide area. Sound absorber unit according to claims to 15,
characterized,
in that the airborne sound-absorbing self-supporting plate (18) is suspended above the film-like coating (20), so that the airborne sound-absorbing self-supporting plate (18) lies in the tensioned film-like coating (20). Sound absorber unit according to one of the preceding claims,
characterized,
that the coating (20) is formed by an existing plastic film. Sound absorber unit according to one of claims 1 to 16,
characterized,
in that the coating (20) is formed by a foil made of metal or a similar material. Sound absorber unit according to one of the preceding claims,
characterized,
that the airborne sound-permeable coating (20) consists at least partially of air-permeable material such as in particular fabric or fabric. Sound absorber unit according to one of the preceding claims,
characterized,
that it comprises at least two airborne sound-absorbing self-supporting plates (18) which are sandwiched and spaced from each other. Sound absorber unit according to claim 20,
characterized,
that the airborne sound-absorbing self-supporting plates (18) are at least partially surrounded by a common airborne sound permeable, in particular film-like coating (20). Sound absorber unit according to claim 20 or 21,
characterized,
in that further, in particular softer airborne sound absorbing material (24) is introduced between the airborne sound-absorbing self-supporting plates (18). Sound absorber unit according to one of claims 20 to 22,
characterized,
that the distance (d) between the two superimposed airborne sound-absorbing self-supporting plates (18) is at most about 300 mm, and preferably less than 200 mm. Sound absorber unit according to one of claims 20 to 23,
characterized,
in that, at least in regions, a common frame (28) is attached to the outer edge of the airborne sound-absorbing self-supporting plates (18). Sound absorber unit according to claim 24,
characterized,
in that the cover or foil (20) is pulled over the common frame (28). Sound absorber unit according to one of claims 20 to 23,
characterized,
that absorb in the region of the corners of the airborne sound self-supporting plates (18) corner pieces are provided, the distance the absorbent between the airborne sound self-supporting plates (18), optionally the distance between the interposed further air sound absorbing materials (24) and / or the respective Define distances between the plates (18) and the coating (20). Sound absorber unit according to claim 26,
characterized,
that at least one in particular again the distance between the airborne sound-absorbing self-supporting plates (18), if necessary, the distance between arranged therebetween further airborne sound absorbing materials (24) and / or the respective distances between the plates (18) and the cover (20) defined Intermediate piece (32) is provided, which is arranged between two corner pieces (30). Method for reducing the sound pressure levels in a room, in particular in a paper machine hall, using sound absorber units (10) suspended from at least one wall (16) and / or the ceiling (14) of the room according to one of the preceding claims, wherein the frequency characteristic of the Sound absorption of the Schallabsorbereinheiten (10) respectively on the material of the airborne sound absorbing self-supporting plate (18), possibly the one or more materials of the further airborne sound absorbing material (24), the suspension distance from the respective wall (16) or ceiling (14) and / or the inclination relative to the relevant wall (16) or ceiling (14) adapted to the frequency characteristics of the sound pressure emissions of the adjacent sound emitting area, in particular to the frequency characteristics of the sound pressure emissions of the headbox, the wire section, the press section or a part of the dryer section of a paper machine becomes.

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