DE2943614A1 - Sound attenuator splitter element - has frame of U=section members with flange edges folded inwards over 180 degrees curved fold areas - Google Patents

Abstract

The splitter element for a sound attenuator, comprises a frame which consists of U-section (11,10) members (2) and encloses a filling of sound-absorbent material (3). The open side faces of this material are covered by an acoustically transparent layer (4). The lateral flanges (10) of each member are folded (13) over 180 deg. the fold area (12) being rounded so that it presents no sharp edge. The fold is pref. inwards so that the edge (14) lies against the inside of the flange (10). The web (9) of the member may be stiffened by depressions (15).

Description

description

The invention relates to a link element for a link silencer according to the preamble of claim 1.

Such gate elements have a closed circumferential U-profile frame on, which is usually made of sheet metal, and plate-shaped in the inner opening Absorbent material, for example made of mineral fibers, is used. Give it the side legs of the U-profile the absorption material the lateral support, while the central web of the U-profile forms a circumferential edge delimitation. Such Link elements are usually with length and height dimensions of up to about 2 m with thicknesses of about 3 to 60 cm and to form a backdrop of the silencer, which have a total height and length of several meters can, stacked one on top of the other and placed side by side, with adjacent gate elements are fixed against each other with suitable connectors.

Since the backdrop elements have weights of significantly depending on the dimensions can reach over 10 kg, and a plurality of gate elements in each Set are stacked on top of each other, is the frame of the lower set of elements in the stack exposed to considerable loads and gives its mechanical resilience maximum stack height. If both for example the mechanical load capacity a gate element when loaded by the stack weight 80 kg with its own weight of 13 kg, e.g.

six such backdrop elements are arranged one above the other without that the frame of the lowest link element under the load of the arranged above Scene elements collapse. Thus, every single link element should be strived for on the one hand to be as light as possible and on the other hand to be as resilient as possible, am to be able to achieve large stacking heights if necessary, with the objective of a lightweight construction usually also meets the demand for material savings This objective leads when reducing the weight of the absorbent material technical reasons are no longer possible to require a light and nevertheless mechanically resilient execution of the galvanized for common applications Sheet steel existing frame of each backdrop element. In the context of the present Invention has shown that by structural stiffening of the frame The wall thickness is reduced by circumferential beads in the center web of the U-profile of the frame can be achieved by up to about 30%, what with a weight reduction connected in a similar order of magnitude.

However, the more thin-walled design of the frame means that before Especially when using sheet metal, sharper edges on the edges of the side These edges are on the surface of the absorption material or the cover layer for this, de either by means of an abrasion-resistant coating of the surface of the absorbent material or also from separate cover films Plastic like polyvinyl chloride or polypropylene can be formed. Through the with speeds of often well over 10 m / s between the scenes passing through Air, the side surfaces of the backdrop elements are excited to vibrate to relative movements between the absorption material or

the cover layer and the legs of the U-profile lead, being sharp Edges can damage the cover layer. It is obvious that the substitution such a damaged gate element approximately in the middle area of a gate in a splitter silencer with closely spaced splits assembly-related effort and corresponding downtime of the Muffler leads, which is often a result of the undamped noise pollution result in a corresponding downtime of an entire system.

So much for the splitter silencer in the industrial or power plant sector is used, can thus initially relatively small damage by such the cover layer can cause considerable consequential damage.

The object of the invention is to provide a link element in the preamble of claim 1 outlined generic to create, which with thin-walled and therefore Material and weight-saving design of the frame enables a high load-bearing capacity and thereby damage to the cover layer for the absorption material as possible easy way to safely avoid.

The solution to this problem takes place through the characteristic features of claim 1.

On the one hand, the fold provides optimal edge protection, because of the possibly sharp-edged edge of the normally free-ending side leg due to the edge-free rounding in the connection area between the wall of the leg and the fold is replaced.

Damage to the cover layer on the curve is completely excluded. At the same time, however, is also The fold alone is a very significant one additional stiffening of the U-profile is achieved, which is surprising to this extent. The reason for the considerable reinforcement effect caused by the fold is that the The increase in material given by the fold in the cross-section of the U-profile for the The load on the gate wall is applied to increase the geometrical moment of inertia optimal place. The area moment of inertia of the cross section is on the other hand decisive for the resilience of the frame or the link element in the Backdrop, because the horizontally lying sides of the frame are immediately visible! Bend are loaded, while the vertically lying legs are subjected to a buckling load are connected with a bending load from the horizontally lying sides induced bending moments. Because of the folds on the edges of the side Legs given increase in material is at a distance from the center of gravity of the profile, results Due to the fold, the additional material required for this is strong disproportionate increase in the area moment of inertia and thus the buckling and Flexural strength.

The subclaims have advantageous developments of the invention to the content If according to claim 2 the fold is on the inside of the leg, this results in an optically undisturbed outer front of the legs, which apart from the The rounding on the edge of the leg does not reveal the fold; this will also additional, vortex-forming disturbances of the flow through the fold reliably avoided. Damage to the cover layer is now caused by the edge at the end edge of the fold are no longer so critical, dd still the undamaged cover layer runs into the area behind the edge of the lateral legs. However, you can also this damage can be safely avoided that the end edge of the Faize full of the inner surface of the leg. According to claim 3 If necessary, a bevel can also be provided on the end edge of the fold, which breaks the edge facing away from the associated leg, so that damage can also be absolutely excluded in this area. Even if they are bent outwards Such a bevel can reduce the flow resistance and the formation of eddies.

If necessary, the profile can be reinforced by that according to claim 4, the central web of the U-profile by beads in addition constructively is stiffened. However, it has surprisingly been shown that the stiffening by the rebate has a greater impact than the stiffening with additional beads, however, such an additional measure can save material and weight if necessary of up to over 30%.

According to claim 5, the width of the fold should be at least about 5 mm amount to an effective bracing on the one hand and a clean one on the other To enable execution of the rounding. In any case, it should be the width of the fold based on the height of the respective leg at least a quarter of this height, but preferably be half this height.

Further details, features and advantages of the invention result from the following description of an embodiment with reference to the drawing.

It shows Fig. 1 a gate element according to the invention schematically simplified in a diagrammatic representation and FIG. 2 shows a partial section along the line II-II in Fig. 1 in an enlarged view.

The gate element 1 illustrated as a whole in FIG. 1 consists essentially consists of a circumferential frame men 2, for example from Sheet metal, and an inner filling of absorption material 3 with an outer Cover layer 4, for example in the form of a plastic or aluminum foil. the Cover layer 4 has the task of the actual absorption material, for example Resin-bonded mineral fibers, from abrasion by the splitter silencer to protect the current flowing through it, and is acoustically transparent to prevent penetration the sound wave energy in the absorption material to enable such backdrop elements 1 are joined together in a known way to form scenes in the manner 1 that on the horizontal sides 5 and 6 of the frame 2 and the vertical sides 7 and 8 of the frame 2 further, in the dimensions of the same gate elements attached and in the area of the corners between sides 5, 6, 7 and 3 by means of suitable connecting fittings be connected to each other with screws or rivets. The so from the scenery elements Assembled scenes are parallel to each other in approximately the thickness d of the individual Scenery elements and thus also the distances corresponding to the scenes next to one another arranged in the splitter silencer. The sound attenuation is largely the Length of the splitter silencer measured in the direction of flow is proportional and inversely proportional to the distance between the scenes, which makes up for one Damping value desired in the individual case and one adapted to the local conditions Length of the silencer results in a certain distance between the scenes. In order to obtain a certain air passage cross-section, width and height of the opening cross-section of the splitter silencer can be selected as follows: 1 that the sum of the area of the gaps between the scenes has the desired passage cross-section results. In doing so, one often comes to the desired heights of the scenery from several Mettern and thus to a relatively large number of link elements arranged one above the other 1.

Since the lowest gate element 1 in the gate stack, the weight of all overlying backdrop elements 1 must take up, which are all identical to each other are designed, the aim is to build the individual tulip elements 1 easily and yet to make the frame 2 so stiff that it does the occurring in the stack Bending loads on pages 5 and 6 as well as the buckling and bending loads occurring in the stack Can absorb bending loads on pages 7 and 8 even more safely without the danger consists that the lowest link element 1 bulges under the weight or even collapses. The individual gate elements 1 should be as light as possible build in order to reduce the weight load and without any functional disadvantages material to save.

As can be seen in particular from Fig. 2, the frame 2 is as U-profile formed with a central web 9 and two lateral legs 10. the Representation in Fig. 2 is the overall designated 11 U-profile essentially in natural size true to scale again, so that because of the dimensions in the present Example case can be referred directly to the drawing. As shown in Fig. 2 as can be seen, the edges resting against the outer cover 4 are the lateral Leg 10 as an edge-free rounded connection areas 12 for inwardly bent back Folds 13 formed, which end in end edges 14, which are snug on the inner wall the side legs 10 rest.

The bent-back folds 13 result in a material reinforcement in the outer region of the side legs 10, which is at a distance from the designated by x The axis of inertia of the U-profile 11 with a focus S is located.

This results in bending moments about the axis of inertia x Radius of gyration i with which the material is reinforced by the folded-back fold 13 takes effect. As is readily apparent from the drawing, is the radius of gyration i comparatively large, so that the material reinforcement by the folds 13 in the Senses an increase in the geometrical moment of inertia of the U-profile 11 has a strong impact, especially since the radius of gyration i in the square is included in the area moment of inertia. Three In the example case, beads 15 provided in the central web 9 stiffen the U-profile 11 in addition, but only significantly with regard to the area moment of inertia minor improvements, since the mass of the beads 15 is in the immediate vicinity the axis of inertia x and thus on the one hand even a small radius of gyration and on the other hand the radius of gyration for the main mass of the central web 9 only slightly enlarged due to the slight shift in the center of gravity.

As can also be clearly seen from FIG. 2, the rounded one closes Connection area 12 between each side leg 10 and the bent back Fold 13 any risk of damage to the cover 4 even in the event of 1 that relative movements occur during the operation of the splitter silencer occurring vibrations are unavoidable. In the area of the terminating edge 14 of the Fold 13 can be provided with a bevel 16 which faces away from the leg 10 Edge of the terminating edge 14 breaks to avoid any risk of damage here as well to exclude the cover 4. In general, however, the edge is at the terminal edge 14 harmless, especially if the fold 13, as shown in the drawing Embodiment according to FIG. 2 can be seen, following the rounded Connection area 12 is pushed back by a little more than 1800 and fed up with the Inner wall of the associated leg 10 rests. Furthermore, are in the area of the end edge 14 the relative movements, if they still exist at all, at least less because the cover 4 is not exposed to the air flow in the area there, and would Minor damage to the functionality of the link element 1 moreover not affect yet.

Because the fold 13 is turned inward, the outer surface remains the leg 10 completely undisturbed.

However, the disruption of the air flow would also occur in the event of an overturning of the fold 13 on the outside of the associated leg 10 only slightly, so that such an embodiment is also possible.

Claims (6)

Link element for a link plate damper Claims 1. Link element for a link plate damper, with a cross-sectionally U-shaped frame, the runs in a closed polygon shape and encloses a filling made of absorption material, those on the open side surfaces of the frame with an acoustically transparent cover layer is provided, characterized in that the edges of the side legs (10) of the U-profile (11) with a fold running back at least approximately over 180 ° (13) are provided, the connection area (12) of which on the respective leg (10) is rounded without edges. 2. Link element according to claim 1, characterized in that the Fold (13) is on the inside of the leg (10) and with its ADschlussrand (14) fully rests against the inner surface of the leg (10). 3. link element according to claim 1 or 2, characterized in that that the end edge (14) of the fold (13) has a bevel (16) which the from associated leg (10) facing away from the edge of the end edge (14) breaks. 4. Link element according to one of claims 1 to 3, characterized in that that the central web (3) de U-profile (11) structurally stiffened by beads (15) is 5. gate element according to one of claims 1 to 4, characterized in that that the width of the measured in the direction of the height of the respective leg (io) Fold (13) is at least about 5 mm 6. Link element according to one of the claims 1 to 5, characterized in that in the direction of the height of the respective leg (10) measured width of the fold (13) at least a quarter, preferably at least is about half the height of the respective leg.