US2928492A

US2928492A - Exhaust muffler

Info

Publication number: US2928492A
Application number: US437629A
Authority: US
Inventors: Charles E Nelson
Original assignee: Nelson Muffler Corp
Current assignee: Nelson Muffler Corp
Priority date: 1954-06-18
Filing date: 1954-06-18
Publication date: 1960-03-15
Anticipated expiration: 1977-03-15

Description

March 15, 1960 c. E. NELSON 2,928,492

EXHAUST MUFFLER Filed June' 18, '1954 2 sheets-sneer 1 March l5, 1960- c. E; NELSON` EXHAUST 1V1UFFLER` 2 Sheets-Sheet 2 Filed June 18, 1954 'EXHAUST- MUFFLER Charles E. Nelson, Stoughton, Wis., assgnor to Nelson `Mutiler Corporation, Stoughton, Wis., a `corporation of Wisconsin Application June 18, 1954, Serial No. 437,629

V3 Claims. (Cl. 181-47) AThepresent invention relates to a novel exhaust muffier or silencer for internal combustion engines.

Any object Yof the present invention is to providey a novel internal combustion engine exhaust muffler of relatively simple construction, which novel muffler has subf stantially improved exhaust noise silencing characteristics.

Another object of the present invention is to provide United States Patent 2,928,492 yPatented Mar. 15, 1960 extend With this arrangement it is seen that exhaust 4gases'entering the mufiler'through either of the tubes --Yare'discharged -into one of the' chambers '20 or24at `opposite sides of the chamber 22 from where the gases #may pass through the chamber 22v and into the other of the chambers 2G and 24'for discharge through the l other of the tubes.

As thev gases pass into and through the

chambers

28, 22 and 24, kthe gases are expanded,

cooled, and refiected by the partitions so that out of 'phasing of the exhaust impulses is effected. The out of phasing of the exhaust impulses and hence the muffling :of exhaust noises may be more effectively accomplished by increasing the number of paths along which the exhaust gasesV may flow Within the muffler and therefore the

tubes

36 and 38 are preferably provided with per- .forations In the particular embodiment illustrated the

Y tubes

36 and 38 are provided with perforations throughout Atheir entire lengths except, of course, for the portion extending beyond the ends of the shell. As will be understood the exhaust impulses and sound frequencies to be mufiled will be different for different installations a novel muiier of the above described type which is of rugged'and economical construction.l Other`objects of the present invention will become apparent from the followinghdescription and the accompanying drawings -wherein:

Fig. lis af perspective view of an internal combustion engine exhaust mufiler embodying the principles of this invention;

FiggZ is a vertical cross sectional `view taken along 'line 2 "2 innig. 1; l

Fig. 3 is a cross sectional view taken along line 3-3 t line 8,-8 ini Fig. `6.

" Referring now morespecifcally to the drawings where- -in like parts are` designated by vthe same numerals lthroughout the various figures, an exhaust muffler 10 embodying the features of the present invention includes anelongated tubular shell 12 having opposite ends thereof' closed by dish-shaped end members14 and 16. The interior of the shell 12 is divided into

chambers

18, 20, 22, 24 and 26 by means of

partitions

28, 30, 32 and 34. These partitions aswell as the end members-14 and 16 yare vpreferably. provided with peripheral flanges which are-welded to the tubular shell to give the structure the -desired strength and rigidity.

Tubes

36 and 38 extend into the .shell through the end members `14 and 16 and as` will appear from the description hereinbelow` the muffler may be arranged so that each of these tubes may be used as either the exhaust gas inlet or the outlet tube.

rThe tube 36 extends through the

partitions

28, 30 and 32 andopens into the chamber 24. The-tube 38 similarly extends through the partitions and opens into the chamber 20. It should-be noted'that the partitions 30 .and32 are respectively provided with openings 40.and V42 through which the 'tubes' extend. .These openingsare substantially larger than the tubes so as to provide gas l passageways between the`

chambers

20, 22 and 24.` In addition, assemblyl ofV the tubes is facilitated since the large openings- 40and 42 inthe partitions need not be p in exactaxial alignment-with` the. tubes and thegsmall `openings-intheother partitions through whichthe tubes ofthe muler. The sound frequencies may vary from y'low frequencies of less than 300 cycles per second to high frequencies at the limit of the audible range and the size and spacing of the perforations in the tubes should be lvaried in accordance with the particular frequencies to be muffled to provide the most efficient op- 1 eration.

However, in order to obtain the most efficient mufing action the percentage of opening in the portionswof the tubes located within the

chambers

18 and 26 should l be substantially greater than the percentage of opening in the portions of the tubes located within the remaining chambers. When mufiling higher yfrequencies. for example, it has been found that good' results are ob- `tained when the tube portions within the chambers/18 and 26 are provided with about 5 percent of perforated -area while the remaining portions ofthe tubes have about l percent of their areas perforated.

While the mufliing action obtained bypassing exhaust l gases through the

chambers

20, 22 and 24 in the manner `described above is satisfactory for many installations, it

has been found that a substantial improvement in the f silencing action of the muffler is obtained by providing `resonator chambers at opposite ends of the muffler. ln

the embodiment illustrated, the

partitions

28 and 34 are l imperforate except, of course, for the openings snugly I receiving the tubes. The

resonator chambers

18 and 26 are, thus, closed from the remainder of the muffler except for the perforations in the tubes. Assuming the tube 36 to be the inlet tube, exhaust gases will surge into the chamber 18 through the perforated tube section 44 and then surge back into the tube. This sur-ging action effects t substantial out of phasing of the exhaust impulses and at the same time the back pressure created is unobjec` tionable since the gases are almost immediately expanded `into the

chambers

22 and 24. It is understood that a similar surging action of the exhaust gases into andout of the chamber 26 will effect a further silencing ofthe exhaust noises. While maximum silencing action is obltained by providing the resonating chambers at both ends of' the muiller certain installations will be satisfactory l with vonly one resonator chamber provided at either the inlet end lof the muffler or the outlet end. When 'only one resonator chamber is to be used, maximum silencing action may be obtained by locating the resonator chamvber at the outlet end of the muffler in order to absorb not only the original exhaust noise but also any secondary noises that may be created within the muler.

rWhenrproviding a muier of the Vtype contemplated i herein for silencing low frequency exhaust impulses, it is J important that the inletand outlet tubes be arranged'so e J that they overlap each other a considerable amount. For such a mufiier, the location of resonator chambers at the ends of the shell may necessitate making the mutiier too long for certain installations.` However, it has been found that a resonator chamber may be provided as shown in the embodiment of the present invention illustrated in Figs. 6 through 8, whereby substantially improved mufing action is obtained without unduly increasing the overall length of the muiiier. More specifically, in Figs. 6 through 8 there is shown a muier 5% which includes an elongated tubular shell 52 which is closed at its opposite ends by end members Srtand 56. The interior of the shell 52 is dividedinto a plurality of chambers 58,` 69, 62 and 64 by partitions 66, 63 and 70.

A perforated exhaust inlet tube 72 extends through the end 54 and the partitions and opens into the chamber 6d. It should be noted that the partition 66 is provided with a relatively large opening 74 through which they sageway permitting gases to enter into and escape from the chamber 62 whereby the chamber 62 is a resonator chamber functioning in a manner similar to the resonator chamber described above.

A perforated exhaust outlet tube 8i) extends through the outlet end 56 of the muffler and the partitions and opens into the chamber S8. The partitions 68 and 70 dividing the resonator chamber 62 are respectively provided with relatively large openings S2 and 84 for facilitating assembly of the tube 8i?. ln order to prevent gases from escaping from the resonator chamber 62 through the openings 82 and S4, an imperforate tube 86 extends through the resonator chamber which is snugly received in the openings 82 and 84. It should be noted that the tube 86 which has a diameter substantially greater than the diameter of the perforated tube 80 also provides a gas passageway connecting the chambers 60 and 64. The inner end of the tube 8()4 extends through and is supported within an opening 88 in a partition 66. If desired, the partition 66 may be provided with openings 90 and 92 as shown in Fig. 7 which form gas passageways in addition to the passageway provided by the opening 74.

The main flow of exhaust gases through the muftier 50 is through the inlet tube and into the chamber 64, then back to the chamber 58 through the tube 86 and the chamber 6i? and iinally out the tube 80. Other portions of the gases flow either into or out of the perforations in the tubes 72 or Sti and serve to break up the exhaust n impulses and increase the efliciency of the muler. Still other portions of the gases surge into and out of the resonator chamber 62 through the perforations in the section of the tube '72 extending through the resonator chamber. Preferably, the section of the tube 72 within the resonator chamber has a larger percentage of perforated area than the remaining sections of the tube 72 and the tube 8i), and for example: the section of the tube 72 within the resonator chamber may have about 5 of its area pen forated while the other sections of the tube 72' and the tube 80 may have about 1% of their area perforated. The eiiiciency of the muier 5t) is further increased by the concentric alignment of the

tubes

86 and 86 which provide an elongated narrow annular passageway which serves to promote more acoustic attenuation of the ex haust impulses of the gases flowing therethrough than would be provided by a single open tube having the same cross sectional area as the annular passageway.

From the above description, it is seen that the present invention has provided a novel exhaust muffler of simple construction which muier is capable of substantially improved silencing action. Furthermore, it is seen that 4 the present invention has provided a novel muttler which may be easily and economically assembled to provide a strong and rigid structure having a long useful working life.

While the preferred embodiments of the present inven tion have been described and illustrated herein, it is ob vious that many structural details may be changed without departing from the spirit and scope of the appended claims.

The invention is claimed as follows:

1. An exhaust muflier comprising an elongated shell closed at opposite ends thereof, at least three transverse partitions spaced longitudinally within said shell `and providing tirst and second end chambers respectively adjacent opposite outlet and inlet ends of the shell and a third resonator chamber and a fourth chamber between said end chambers, an inlet tube extending through the inlet end of said shell and said partitions and opening into said first chamber, an outlet tube extending through the outlet end of said shell and said partitions and opening into said second chamber, each of said tubes having perforations substantially throughout their entire lengths and in each of the chambers through which they extend, an imperforate tube extending through the resonator chamber and surrounding a portion of one of said perforated tubes and providing a gas passageway between one of said end chambers and said fourth chamber, the perforations in a section of the other of said perforated tubes extending through said resonator chamber providing the only means for permitting gases to enter into and escape from the resonator chamber, and means providing a gas passageway in addition to the perforated tubes between said fourth chamber and an adjacent end chamber, each of said perforated tubes having only about one percent of its area perforated except that said tube section has a larger percentage of its area perforated.

2. An exhaust mul-lier, as defined in claim l, wherein said imperforate tube surrounds a portion of said outlet tube, and said tube section is in said inlet tube and has about iive percent of its area perforated.

3. An exhaust muiiier comprising an elongated shell closed at opposite ends thereof, at least three transverse partitions spaced longitudinally within said shell and providing first and second end chambers respectively adjacent opposite outlet and inlet ends of the shell and a third resonator chamber and a fourth chamber between said end chambers, an inlet tube extending through the inlet end of said shell and said partitions and opening into said iirst chamber, an outlet tube extending through the outlet end of said shell and said partitions and opening into said second chamber, each of said tubes having perforations substantially throughout their entire lengths and in each of the chambers through which they extend, an imperforate tube extending through the resonator chamber and surrounding a portion of one of said perforated tubes and providing a gas passageway between one of said end chambers and said fourth chamber, the perforations in a section of the other of said perforated tubes extending through said resonator chamber providing the only means for permitting gases to enter into and escape from the resonator chamber, and means providing a gas passageway in addition to the perforated tubes between said fourth chamber and an adjacent end chamber.

References Cited in the tile of this patent UNITED STATES PATENTS 2,138,477 Ludlow Nov. 29, 1938 2,144,725 Manning Jan. 24, 1939 2,235,705 Haas et al. Mar. 18, 19.41 2,357,791 Powers Sept. 5, 1944 2,614,647 Bryant Oct. 21, 1952 2,652,128 Cary Sept. 15, 1953 2,655,220 ATysltewicz Oct. 13, 1953