DE803452C - Silencer for pulsating currents with partially or completely perforated exhaust pipe inside the damper - Google Patents

Description

Silencer for pulsating flows with a partially or completely perforated exhaust pipe inside the damper The undamped exhaust noise has a pronounced volume maximum in relation to its partial tone composition in the high frequency range between 3000 and 600 Hertz (read by cutting and whirling tones on the valve cross-section and by general flow noises in the These high-pitched hissing tones were previously attenuated in branch filters with a smooth inner passage by placing a slightly spaced, longer, non-perforated cap pipe over the slot or hole-perforated exhaust gas inner pipe, which, through the concluding front and rear ring bottoms, forms an elongated cylinder volume This cylinder ring volume then forms the finite acoustic mass or the reciprocal acoustic conductance of the perforation of the inner tube ei A suction resonator for 3,000 to 6,000 Hertz.

The big disadvantage of this design is that the union tube Due to its length, it almost completely fills an entire silencer chamber, see above that the actual function of the rest of the damping chamber, namely the middle and to attenuate the low frequencies, not only because of the small residual volume, than especially because of the barely existing free perforation and in particular only because of the great proximity to the ground, which is disadvantageous due to the echo quite is possible to a limited extent. This previous disadvantageous method is shown in FIG. The high frequencies are in the direction of arrow t in the ring volume, the low frequencies sucked in the double arrow direction T into the remaining volume. In both In cases, the oscillation process takes place as if mechanically one on one Spring hanging ball is brought into resonance from the ball side. In a state of resonance there is then no work to be done on the ball, d. H. the vibration resistance of the system is zero, and the sound attenuation of this in Fig. i branch filter shown, namely that transversely to the flow direction of the vibration resistance becomes zero where in the direction of the arrow t T resonance between perforation (sphere) and Volume (spring) occurs.

That now only a small one for the low frequencies in FIG Passage in relation to the passage from the exhaust pipe into the remaining damper volume remains is obvious. Another, not yet mentioned disadvantage of this The design is that standing in the long union tube in the chamber of FIG Waves and harmonics are formed that do not cause sound attenuation.

All the disadvantages mentioned are now, according to the invention, by the following Measure eliminated: The union tube is first of all over the entire length of the chamber designed so that the high-tone absorption resonator is perforated over the whole Exhaust pipe section extends. About the remaining volume, which has now been completely switched off for the time being for the middle and low frequencies to vibrate with, is now proposed according to the invention, half of the previous perforation in the inner exhaust pipe of the high frequency absorption resonator and the omitted perforation half to accommodate on the union tube. This has the following physical double effect achieved according to the invention: The high-frequency absorption resonator oscillates in this and only in this special case with the same frequency as before, but in phase opposition, namely, the acoustic mass of the inner perforation vibrates against the acoustic Mass of the outer perforation and thus swallows the high frequencies. Simultaneously According to the invention, however, a low-frequency suction resonator is still formed. Add this up Now the acoustic masses of both perforations and vibrate in phase with a much lower frequency, in conjunction with the remaining volume, and thus dampen the lower or middle frequency range at the same time.

According to the invention, one therefore has two effects in one chamber with full Effect achieved without disturbing one effect by the other. Of course you can also make uneven perforations on the inner flue pipe and on the transfer pipe, in order to place the high-frequency swallowing frequency range in an even higher or lower area. It is only essential that the stronger perforation is housed on the inner exhaust pipe is, where the perforation strength for the same type of perforation is the sum of the total free perforation area is understood.

Finally, in order to avoid standing waves in the high-frequency absorption resonator ring volume proposed according to the invention, intermediate ring bottoms arranged in a staggered manner with respect to the spacing to use, whereby it is advantageous in certain cases for reasons of price is, the perforation of the cap tube according to the invention through a longitudinal gap in to replace the pipe seam and the intermediate ring bases with ring beads.

Another cheaper option is to use the union tube in two halves and with two longitudinal gaps along the separating joints.

Another idea according to the invention is the use of several Hochtonschluckresonatoren different frequency ranges next to each other, whereby only the inner perforated exhaust pipe has two or more perforations of different strengths must receive, which are separated from each other by intermediate ring floors. 'Need further the intermediate and cover floors at the outer ends according to the invention do not close tightly but can have gaps that are included in the overall reconciliation.

Regarding the combination of high frequency and low frequency absorption resonator is finally proposed according to the invention for those cases in which very short Damper with extremely large outer diameters must be used, two or more to put more perforated union tubes on top of each other in order to do so in the same way to obtain several damping areas within one chamber. Here only has to Care must be taken that the perforation according to the invention on the exhaust gas inner pipe on strongest and weakest at the outermost cap tube.

The subject matter of the invention is shown in FIGS. Fig. 2 shows the structure of the high-frequency / low-frequency absorption resonator in the largest muffler chamber.

Those entering the perforated inner exhaust pipe i of the damper 2 Undamped exhaust gases experience through the chamber 3 first a pre-attenuation in a known manner Way until they reach said annular chamber 4, formed by the perforated In the exhaust gas pipe 5 and the perforated union pipe 6, which in turn through its Perforation is again connected to the damping chamber 7. The arrow arrangement * shows the antiphase oscillation of the high-frequency absorption resonator formed and the Arrow arrangement * the in-phase oscillation of the low-frequency resonator, in which add the acoustic masses of both perforations to a single one '.

3 shows the design according to the invention of various perforations of exhaust gas inner pipe 8 and union pipe g.

In Fig. 4 is the cross section of a high-frequency low-frequency absorption resonator shown in the event that instead of the perforated tube a two-shell half Tube io is used, the Butt joints as longitudinal slots ii and 12 are formed.

Finally, FIG. 5 shows the staggered arrangement according to the invention Intermediate floors 13, 14 within the ring volume 17. Fig. 6 shows the special design with several differently perforated and subdivided union tubes 18 to 22.

The intermediate floors 13 and i4 shown in Fig. 5 can also through ring-like arranged spacer beads 16 are replaced in the manner according to the invention. These spacer beads can be pushed through from the inner tube i to the outside, just as the perforated tube 6 can be beaded inward. Farther one of the two tubes can be designed according to the invention so that it is slotted in the longitudinal direction and that it is by its own spring action or by some other known diameter changing device or can contract. Where between the inner tube i and the perforated Pipe 6 for the purpose of maintaining a certain distance without a bottom-like final Effect only the distance must be kept, suffice instead of the aforementioned ring-shaped Crimps also have single protrusions embossed or drawn into the tubes or depressions 15. As in the embodiment according to the invention, the silencer as a result of the elimination of the internal overpressure, the final floors are not completely airtight are necessary, it is possible to save the floors of such silencers the otherwise usual welding lisw. only blasting, flanging or beading. Such an embodiment is shown in FIG. 5, which shows the bottom 23, which is in accordance with the invention Way is attached in (learn muffler casing that it is attached to a ring bead 24 The stop takes place and is fastened at 23 by pulling in or flanging the jacket material is.

Another possibility according to the invention that can be carried out there can, where a bead cannot be attached economically or rationally shown in the aforementioned FIG. 5 at the bottom 26. This soil strikes individuals pressed-in warts 27 and 28 and is then also, for example, by retraction of the jacket material or held by flanging.

In the case of silencers that are to be built so that they can be dismantled for cleaning purposes, there is still the possibility, according to the invention, of arranging the floors so that they can be dismantled in a very simple manner. Due to the fact that, due to the lack of internal excess pressure, complete tightness of the bases is not necessary, the outer silencer jacket can be pulled in at its ends, as is shown in FIGS releases. Thereupon an end base 30 is introduced, the diameter of which is smaller than the aforementioned diameter 29. This base 30 rests against a counter bearing 31, which can just as well be a special structural part as it can be formed as an indentation or impression from the muffler wall . can. This counter bearing can extend along the entire circumference of the muffler jacket; but it can also consist only of individual support points, which can be connected to the silencer jacket or formed from its material, or another built-in part of the silencer interior construction of this counter bearing can form. A snap ring 32 is then inserted, which rests against the conical flanging 33 of the silencer outer wall and, on this, presses the floor inwards against the stop 31 in a supporting manner. In this way, a removable base is introduced in a simple manner without a screw connection and the need for additional sealing.

The perforation of the pipes according to the invention is expedient not executed rectangular, but the slot boundaries run on theirs Ends in semicircular, elliptical or similar rounded space curve shapes. Such a shape avoids flow noises.

Claims (6)

PATENT CLAIMS: i. Silencer for pulsating flows with a partially or completely continuous perforated exhaust pipe inside the damper, characterized in that over the full or partial length of a perforated inner exhaust pipe section another perforated, centric or eccentric ring jacket permeable to low frequencies is attached at such a distance that the The ring volume formed between the perforated inner exhaust pipe and the perforated ring jacket with the acoustic masses of the perforations of the ring jacket and inner pipe vibrating in opposite phase acts as a high-frequency absorption resonator, while the remaining outer chamber volume with the adding and in-phase oscillating acoustic masses of the perforations in the ring jacket and inner pipe simultaneously acts as a low-frequency absorption resonator. 2. Silencer according to claim i, characterized in that for the inner tube and different types of perforations or perforation strengths for the ring jacket or both are provided. 3. Silencer according to claim i and 2, characterized gelccniizeichnet, that the acoustic conductance, formed by the sum of all the perforation forming Openings, in the inner tube larger than the acoustic guide, vert all the perforation forming openings in the ring jacket. 4. Silencer according to claim i to 3, characterized characterized in that only one or more longitudinal gaps are used as a type of perforation in the ring jacket are provided. 5. Silencer according to claim 1 to 4, characterized in that that between the two perforated shells located ring volume of the high-frequency absorption resonator divided several times by transverse or longitudinal walls or beads is. 6. Silencer according to claim i to 5, characterized in that the subdivision of the ring volume from the high-frequency absorption resonator in relation to the distances between the partition walls is carried out in a staggered manner. ;. Silencer according to claims i to 6, characterized in that dass.der Hochtonschluckresonator is housed in the damper chamber, which the has the largest longitudinal dimension. B. silencer according to claim i to 7, characterized in that that the Ilochton-woofer-Schluckresonatorkombination in the end chamber of the damper located. G. Silencer according to Claims i to 8, characterized in that several differently perforated ring jackets lie on top of each other at different distances, so that there are more than two absorption resonators of different frequency groups. ok Silencer according to Claims i to 9, characterized in that the support or holding the various inner ring jackets against each other or against the Outer jacket by means of a spacer that is carved out of the wall material itself There are elevations or depressions. i i. Silencer according to claim i to io, characterized in that partition walls for individual damper chambers are thereby created are that on the inner tubes or the outer jacket corresponding continuous ring-like Beads are arranged that touch the adjacent pipe wall. 12. Silencer according to claims i to i i, characterized in that the inner tubes in the longitudinal direction are slotted and spread against the neighboring ones through their own or someone else's spreading effect Support internal parts. 13. Silencer according to claim i to 12, characterized in that that the slots arranged according to claim 12 are used acoustically. 14th Silencer according to Claims i to 13, characterized in that the end bottoms are infiltrated, blown or crimped into the muffler shell. 15. Silencer according to claims i to 14, characterized in that the end bottoms in the manner are arranged removably that the outer muffler jacket at its ends is caught or drawn in so that a conical or tapered inner surface arises, and that a diameter smaller than the retracted cylinder diameter The silencer base held against the inside of the silencer Supported counter bearing and on this by the action of a resilient ring, which supported on the aforementioned conical retraction, is pressed. 16. Silencer according to claim 15, characterized in that the counter bearings for the Removable base stamped, pressed or pulled out of the muffler shell are. 17. Silencer according to claim 16, characterized in that the counter bearing for the removable muffler base through built-in parts inside the muffler are formed. 18. Silencer according to claim i to 17, characterized in that that the perforation of the tubes is carried out in such a way that those at the ends of the slots provided boundaries semicircular, elliptical or similar Spatial curve shape are designed.