DE2219192A1 - NOISE AND FLOW ABSORBERS FOR A GAS LINE, IN PARTICULAR AN EXHAUST AIR LINE FOR COMBUSTION ENGINES - Google Patents

Description

Noise and flow damper for a gas line, in particular one Exhaust line for internal combustion engines The invention relates to a noise and flow damper for a gas line, especially an exhaust air line rur - Internal combustion engines.

In the case of exhaust air lines for internal combustion engines, the internal combustion engine waves like a noise generator, its background noises, in particular from the gas flow the gas pipe-can be transferred to the open air, where they are then significantly disruptive can.

The same problem arises with all gas lines connected to sources of disturbance noise are connected, as is the case, for example, with compressed air lines that are connected to compressors.

One tries to prevent the noise transmission through one into the current to dampen the filter block. But that only leads to unsatisfactory noise damping, if you did not want to accept considerable flow resistance.

It has been shown that the noises at the end of a run into the open discharging gas line occur, only some of the noise comes from the source of the noise, that is, in the case of exhaust pipes from the internal combustion engine, come directly from the internal combustion engine, on the other hand, however, there are noises which are caused by turbulence in the gas flow are excited in the gas pipe.

The object of the invention is to provide a damper of the type mentioned at the beginning Art to be designed in such a way that on the one hand the transmission of noises is dampened and on the other hand the flow is calmed, so that the generation of new noises largely omitted following the damper. The flow resistance of the damper should be kept as low as possible, and the damper should be simple be.

The invention is characterized in that the two connecting pieces axially parallel but offset from one another starting from opposite sides of the housing push through the filter block inside the housing and on each side of the filter block open inside the damper housing and that the housing interiors on both sides of the filter block are designed as an air chamber and are each at least as large how the volume occupied by the filter block is measured. According to the invention takes place the flow as a result of the overlapping connecting pieces a labyrinth path inside the damper, which in itself already represents a flow resistance. There is also the flow resistance of the filter block. So there are two in principle different acting flow resistances are provided.

It has been shown that especially with pulsating flow generators, So for example in internal combustion engines, the pulsation of the gas flow for the most part only in the Gas pipe generated noises responsible for. According to the invention, this pulsation is reduced in the damper. The air vessel connected upstream of the flow for the pulsation cycle in question offers space for the end of the pulsation cycle, so that this then the following Flow resistances, which are given by the labyrinth path and the filter block, are not happened more or only strongly muffled. It is important that the Labyrinth path and the filter block due to their fundamentally different effect are effective in different frequency ranges and therefore together a very large one Cover the frequency spectrum.

For volume production, it is important to use as few as possible Types of items to get along with. A corresponding further training is thereby characterized in that-the damper housing in the perpendicular to the axial direction of the connecting piece Located: Y-center plane in two housing parts that can be closed on top of each other in a gas-tight manner is divided that these two housing parts are identical to each other and rotated by 180 degrees, based on the axial direction of the connecting piece, to Damper housings are assembled. In the case of die-5 training, therefore, for one Damper requires two equal parts; this is a considerable one for volume production Simplification. Minor differences between the two parts of the housing that have to be added later can certainly be accepted.

Such differences can occur in the outer connection ends of the Connection piece and at the sealing edges with which the housing parts abut, prove necessary. If you form the closure edges as flanges, then leave Avoid differences at this point as well.

The object of a development of the invention is to facilitate the insertion of the Filter blocks to facilitate assembly and a secure hold of the filter block to be achieved with the least possible effort.

This development is characterized in that each housing part has one or more support elements inside, one perpendicular to the axial direction Define the supporting plane located on the connecting piece and a system for the filter block Offer. In this development, it is sufficient if the filter block is in one of the housing parts is inserted before joining and then the other housing part over the protruding The end of the filter block is slipped over and connected to the other housing part.

The filter block can be made of deformable fabric, for example made of open-pored foamed plastic, made of layers glued at the intersection points Natural fibers such as coconut fibers, pig bristles and the like. It is advisable, to take a filter block material that has such great dimensional stability in the relaxed state has that it can be handled easily. Then you can use the filter block as far as possible preform that its insertion is easy to make during assembly and also with inattentive assembly wins the correct fit.

For the noise-dampening effect it also depends on vibration and Resonance constants of the entire damping system. The attenuation spectrum can one broadened by introducing additional resonances, and that was done accordingly an expedient development of the invention in that the filter block penetrating inner ends of the connecting pieces have wall openings that open into the interior of the filter block.

The invention will now be based on the accompanying drawing, in which a Embodiment is shown, explained in more detail.

The drawing shows: FIG. 1 a damper in longitudinal section, FIG 2 shows the view according to arrow II from FIG. 1, FIG. 3 shows a partial view according to FIG Arrow III from Figure 1 and Figure 4 an example circuit.

In the drawing, 1 is the damper housing made of sheet metal denotes, which is composed of two housing parts 2 and 3 and within the filter block 4 of which is arranged. Open into the damper housing at opposite sides Ends of the two connecting pieces 5 and 6, which are inside the housing with each other parallel axes 27, 28, but offset from one another, passed through the filter block 4 are and open beyond the filter block 4 in an air chamber 8, 9. the Connection pieces bung 6 are open at their inner ends and the resulting Mouths are labeled 10 and 11. The connecting pieces also have lateral Wall openings 12, 13, 14, 15, some of which are in the interior of the filter block 4 open, partly in the same air chamber as the associated mouth 10 or respectively 11.

The filter block 4 is clamped tightly between two perforated sheets 16, 17. The two perforated plates 16, 17 extend plane-parallel to one another in each case a support plane 18 ', 19, which support planes are perpendicular to the axes 7 and 8 extend.

In the center plane 20, which is plane-parallel to the support planes 18 and 19 and extends in the middle between these, that is casing 1 divided and the two housing parts 2 and 3 are in this plane with their to Flanges 21, 22 upturned edges closed airtight to one another. To this sem For this purpose, the two flanges can be spot-welded to one another.

As far as described so far, the two housing parts 2 and 3 are identical to each other. In the exemplary embodiment shown, this also applies to the two led out ends of the connecting pieces 5 and 6. These ends can be in If necessary, also different depending on the requirements of the external connection be executed. An outer bracket 25 is welded to one housing part 2, which is used to hold the entire filter housing. Such a bracket could also be provided on the other housing part 2. In the illustrated embodiment it is dispensable and therefore not provided. Differences in identity, due to a possibly modified design of the protruding ends the connecting piece 5 and 6 and the bracket 25 affect the otherwise identical design of the two housing parts 2 and 3 achievable advantages of the Manufacture is only insignificant, because the housing parts can largely be combined are produced in a uniform series, and the different elements can be added later. It is noteworthy that the damper after the Invention can also be produced with completely identical housing parts.

The filter block 4, which in the illustrated embodiment as a single block is drawn, can consist of several disks, which in Direction of axes 27, 28 are set on each other and each of which is about extends the entire cross-section. A symmetrical structure will be preferred, at in which there are two disks of the same kind on both sides, which are in the Middle encloses a different type of disc between itself. Instead of three discs one can use such a symmetrical structure with a higher one achieve an odd number of slices. The block can also consist of an even number Number of front discs to be built up.

When a filter block is mentioned here and in the following, then it should be used to designate a filter block that either consists of one piece or composed of several discs or several differently shaped individual parts is.

The filter block 4 is made of highly porous filter material, the completely unencumbered offers so sufficient dimensional stability that it is in the Assembly can be handled easily, such as the dimensional stability of a natural sponge. In relation to its unloaded state, the filter block is a circular cylinder shaped with preformed openings or channels 29, 30, which are used for receiving the connecting pieces 5 and 6 are appropriately sized.

In cross-section, the block is dimensioned so that it just quickly enters the free cross-section of the housing fits, which is the same over the entire length of the filter block is large and circular. In the axial length - based on the axis direction 27, 28 - is the. Block 4 is about half the length of the distance 32 between the support levels 18 and 19. When assembling the housing, the The filter block is compressed to the distance 32 in the axial direction. This stretches he finds his way a little in the radial direction and finds - in this way to seal Connection to the walls of the housing 1 and also to the walls of the connecting pieces 5 and 6, so that cutouts are made at these points to facilitate assembly Tolerances cannot lead to gaps through which the flow passes to the filter block can flow past. The volume of the filter block used is about half as large like that of the air chamber 8 and that of the air chamber 9.

The orientation when installing the damper, based on the direction of flow, is arbitrary. If the connection piece is installed on the pressure side, there is a flow the flow from the connection piece 5 into the air chamber 9 and passes from there after enforcement of the filter block 4 into the air chamber 8 and then flows through the connecting piece 6 from. The flow finds shunts through openings 12, 13, 14 and 15, but must enforce at least part of the filter block with all these shunts. The main part of the flow that passes through the orifices 10 and 11 must, apart of the action of the air chambers 8 and 9 and the filter block 4, through a labyrinth flow, or in other words, it finds one after exiting the mouth 10 Reversal of direction instead of and a second reversal of direction to enter the mouth 11 instead of.

The invention is advantageously applicable to all those who are noisy Gas flows in which the transmission and generation of noise are attenuated shall be. It is preferably applicable to gas flows into the open air lead to hold back the noises from escaping into the open atmosphere.

With such currents, the low flow resistance, which cannot be avoided even with dampers according to the invention, in terms of to be accepted for the favorable noise-dampening effect. Particularly beneficial the invention is applicable in connection with pulsating flows because they is suitable to dampen the pulsations of the flow and thus the resulting Suppress noises from the outset. A preferred application of the invention, in which all of the above-mentioned requirements are met, consists in with a damper according to the invention, the gas line for the free into the atmosphere flowing excess, supplied for an afterburner of an internal combustion engine To dampen air. A corresponding circuit is shown in FIG.

In Figure 4, 40 denotes an internal combustion engine, the exhaust pipe 46 leads to the outside via an afterburner 44.

An air compressor 48 is driven by the internal combustion engine, which leads to the outside with a nozzle on the suction side and via a line on the pressure side 43 and a valve 42 and a line 41 to the one leading to the afterburner 44 Exhaust pipe 46 is connected. From the valve 42 a drain line leads into Free, in which the 47 -marked damper is switched on after the ore in dung is.

At high speeds of the internal combustion engine 40 arrives in a controlled manner only a very small proportion of that conveyed by the compressor 48 through the valve '42 Air into the afterburner 44 and the excess supplied by the air compressor 48 Air is fed into the valve 42 and the line equipped with the damper 47 Free given. The damper 47 hinders the generation and transmission of noises outdoors in connection with the flow of excess air.

Claims (6)

EXPECTATIONS noise and flow damper for a gas line, especially one Exhaust air duct for internal combustion engines with one in one gas-tight, with two connection pieces provided housing accommodated in the gas flow of the gas line placed gas-permeable filter block, which has a Strönwig resistance for the gas flow offers, characterized in that the two connecting pieces (5, 6) axially parallel but the filter block is offset from one another, starting from opposite sides of the housing (4) inside the housing and beyond the filter block inside of the damper housing open and that the housing interiors on both sides of the filter block (4) are designed as an air chamber (8, 9) and are each at least as large as the volume occupied by the filter block (4) is measured. 2. Steam he according to claim 1, characterized in that the damper housing in the center plane perpendicular to the axial direction of the connecting pieces is divided into two housing parts (2, 3) which can be closed gas-tight there, that these two housing parts are identical to each other and 180 degrees, in relation to the axial direction of the connection piece, rotated to the damper housing ( 1) are joined together. 3. Damper according to claim 1 or 2, characterized in that the Closing rims of the two housing parts (2, 3) designed as flanges (21, 22) are. 4 damper according to one of the preceding claims, characterized in that that each housing part (2, 3) has one or more support elements (16, 17 ) which has a perpendicular to the axial direction of the connecting pieces (4, 5) Define the support level and provide a facility for the filter block (4). 5. Damper according to one of the preceding claims, characterized in that that the unloaded filter block (4) than with openings (29, 30) for the connecting piece provided cylinder is preformed, the cross-section of which is dimensioned as the clear Cross-section of the damper housing over the entire length of the filter block used has a constant cross-section, and that the axial length of the unloaded filter block is greater than the axial distance between the support elements (.16, 17 ) defined support levels of the assembled damper housing and that the filter block (4) in the axial direction to this distance compressed into the compound Damper housing is inserted. 6. Damper according to one of the preceding claims, characterized in that that the inner ends of the connecting pieces penetrating the filter block have wall openings have, which open into the interior of the filter block.