US3842940A - Silencer for internal combustion engines - Google Patents

Silencer for internal combustion engines Download PDF

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US3842940A
US3842940A US00304429A US30442972A US3842940A US 3842940 A US3842940 A US 3842940A US 00304429 A US00304429 A US 00304429A US 30442972 A US30442972 A US 30442972A US 3842940 A US3842940 A US 3842940A
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pipes
silencer
pipe
connector
inlet
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US00304429A
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L Bonikowski
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WYTWORNIA SILNIKOW WYSOKOPREZN
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WYTWORNIA SILNIKOW WYSOKOPREZN
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Priority claimed from PL132996A external-priority patent/PL64809B1/pl
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01NGAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
    • F01N1/00Silencing apparatus characterised by method of silencing
    • F01N1/08Silencing apparatus characterised by method of silencing by reducing exhaust energy by throttling or whirling
    • F01N1/10Silencing apparatus characterised by method of silencing by reducing exhaust energy by throttling or whirling in combination with sound-absorbing materials
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F01MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
    • F01NGAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
    • F01N1/00Silencing apparatus characterised by method of silencing
    • F01N1/06Silencing apparatus characterised by method of silencing by using interference effect

Definitions

  • ABSTRACT A silencer for an internal combustion engine comprising at least one set of two bowed, perforated pipes enclosed in sound absorbing material within a housing: at least one connector is provided having arms extending in opposite directions, an inlet of each pipe being axially connected to an arm of the connector.
  • Entrance to the connector is provided by one or more arms transverse to the oppositely extending arms.
  • a plurality of sets of pipes are connected by a plurality of such connectors, the discharge from one set providing the inlet to the succeeding set, with collision of exhaust gas streams occurring in the connectors.
  • the present invention relates to a silencer for internal combustion engines designed for reducing the noise of the combustion exhaust gases.
  • the present invention may also be employed in cases where a necessity arises for miniaturization and mounting on an engine without the intermediary of an exhaust pipe.
  • the interference silencers now known are designed in a way so as to enable a superposition, due to a differentiation of lengths of flow paths, of the waves travelling in the same direction as the exhaust gas stream.
  • the operation of the known interference silencers consists of a distribution of a single pressure pulse into a number of smaller pulses which are finally joined together at the outlet of the silencer, with a correspond ing phase shift, into one continuous pulse.
  • Such a silencer does not reduce the variable frequencies of the sounds. Besides, it has been stated that the flow of exhaust gas stream through a silencer of this type does not fulfill the relative assumptions due to different flow resistances which oppose the flow of the exhaust gases in particular branches of the silencer.
  • the absorption silencer now known consists of through conduits enclosed within a housing filled with noise-absorbing material.
  • an absorption silencer provides for the transformation of the energy of vibrations of high frequency of the exhaust gases flowing through the silencer into heat.
  • the silencers of this type are efficient only for sounds with frequencies above 500 cycles per second. Therefore, they are not suited for absorption of fundamental frequency, which is the dominant noise characteristic, and which in engines being generally used, amounts to about 200 cycles per second.
  • the purpose of the present invention is to reduce the noise level due to the exhaust of combustion gases in the whole range of frequencies resulting from the different rotational speeds of an engine, without impairing the engine operating parameters, by means of a silencer of reduced size and simplified design.
  • the interference absorption set of the silencer consists of perforated pipe conduits enclosed in a housing, forming a connected system of pipes and located in absorbing material.
  • conduits are formed by symmetrical bowed pipes connected by connector joints where exhaust gas streams collide and are again divided.
  • the bow-like shape of symmetrical halves of a pair of pipes causes such a conducting of the exhaust gas stream that these exhaust gases flowing from opposite directions, collide in the cross connectors of the pipes, thus causing a generation of standing waves.
  • These waves are generated from two plane waves being superposed one upon another with opposite displacement speed directions with the same amplitudes.
  • the diameter of the pipe conduit in the silencer is at least fourfold smaller than the length of a single bowed pipe.
  • the distances between places of succeeding collisions of exhaust gas streams in the connected system of pipes are spaced in such a manner that the proportions of these distances, being the lengths of single bowed pipes and the speeds of wave displacement in exhaust gas streams flowing through these pipes are maintained at constant values. Stated another way, equal distance proportions are maintained in the system of pipes between successive collision points of the exhaust gases, determined by the pipe lengths, and the velocities of wave propagation in the streams flowing through these pipes.
  • This frequency is independent of the frequency of waves flowing from the engine and is stabilized by geometrical dimensions of the pipes of the connected systern of the silencer, according to the invention.
  • the vibration frequency of the waves is raised to a value corresponding to the maximum value of the coefficient of energy absorption, the energy absorption being due to the transformation of the sound energy into heat in the sound absorbing material being used.
  • To this frequency are adapted the form, proportion, and volume of the housing of the silencer, which is a known acoustic reflection filter.
  • This stabilization of the vibration frequency of waves generated in the silencer, according to the invention, in the whole range of frequencies resulting from the rota tional speeds of the engine, and a simultaneous raising of thesefrequencies to a value corresponding to the maximum value of the coefficient of sound absorption by the absorbing material being used enables the efficient absorption of sounds.
  • the silencer whose construction causes the absorption of the wave movement without limiting the flow of exhaust gases, enables a choice of amost advantageous flow resistance on which the improvement of the charge exchange in the engine depends, without impairing-the engine parameters.
  • The-application of the silencer, according to the invention, to a Diesel engine with a displacement of 397 cu. in. and with fourfold volume as calculated for known silencers, has made possible, by way of example, at 1500 rpm, a lowering of the loudness level dominating inthe noise characteristic of the fundamental frequency band, by 34 dB, without'any negative influence of the operating parameters of the engine.
  • the construction of the silencer enables its assembling from prefabricated elements, is simple and economic, and provides a possibilityof a choice of an appropriate number of pipes, depending on the degree of sound absorption required
  • the efficiency of sound absorption is independent of the pressure of exhaust gases at the beginning of the cycle of the outlet, due to the superposition of waves with the same parameter, spreading in opposite directions.
  • the sound-absorption method used in the silencer is based on the phenome non of the generation of standing waves and the accompanying dynamic effects, an absence of disturbing transverse waves, making it possible to determine the design parameters of silencers for various types of internal combustion engines, by calculation and tests on motorless stands, as well, and eliminates a fortuitous choice of silencers as is presently practiced.
  • the silencer for internal combustion engines is shown by way of example in the accompanying drawing, in a partial section view, with one half of the housing removed.
  • Thes'ilencenaccording to the invention consists of a system of perforated pipe conduits arranged in pairs, enclosed within housing 1, contained in an absorbing material 2, to which system the exhaust gases flow through an inlet pipe 3 and inlet connector 4 and flow out-through outlet connector joint 5 and discharge pipe 6.
  • the pipes being the elements of the connected system consist of symmetrical perforated pipes or conduits 7 and 8, l and 11, 13 and l4, l6 and l7, l9, and 20, connected in pairs by cross connector joints 9, l2, l and 18, and the inlet connector joint 4 and outlet connector joint 5.
  • the silencer with an interference-absorption set, according to the invention, operates in so that an exhaust gas stream flowing in through the pipe 3 fixed in the housing 1 is divided in the inlet connector joint 4 into two streams which flow through oppositely extending pipe conduits 7 and 8, and then collide in the cross connector joint 9.
  • the connectors each have at least one pair of oppositely extending arms to each of which a perforated pipe is connected.
  • Eachconnector also has either a second pair of arms transverse to the first pair, or a single transverse arm, as in the case of inlet connector 4 and outlet connector 5.
  • the number of pairs of conduits the silencer is selected depending on the efficiency of noise absorption connected with the exhaust of combustion gases.
  • the collisions of streams in connectors joints cause the generation of standing waves with equal vibration frequency independent of the frequency of pulsation of a non-stationary stream of exhaust gases flowing into the silencer.
  • the places of collisions of streams are established at such distances from one another that the standing waves generated in successive branchings of the interference conduits have an equal frequencies of vibrations.
  • the distance between two successive places of collisions of exhaust gas streams is at least twice smaller than the smallest length of the sound wave as defined by the frequency of the fundamental component of noise characteristics resulting from the highest rotationalspeed of the engine.
  • the vibration frequency of standing waves generated in the interference conduits is adapted to the most. advantageous range of frequency absorption by the absorbing material being applied.
  • the geometrical dimensions of the silencer are so selected in relation to the vibration frequency of the exhaust gas stream that it forms an acoustic resonance filter reducing deviations of vibrating molecules due to a dynamic reaction of gases filling the silencer.
  • a silencer for an internal combustion engine comprising:
  • each set comprising two bowed symmetrical pipes each having an inlet and an outlet and being perforated along their lengths,
  • a connector for the pipe inlets of each set comprising a pair of oppositely extending arms to each of which an inlet of a said pipe is axially connected, and inlet arm means extending transversely of said oppositely extending arms,
  • a connector for the pipe outlets of each set comprising a pair of oppositely extending arms to each of which an outlet of a said pipe is axially connected, and outlet arm means of said last mentioned con- 3,842,940 v s 6 nector extending transversely of said arms thereof, absorbing material occupying the space in said housing around said pipes and connectors.

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  • Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Exhaust Silencers (AREA)

Abstract

A silencer for an internal combustion engine comprising at least one set of two bowed, perforated pipes enclosed in sound absorbing material within a housing: at least one connector is provided having arms extending in opposite directions, an inlet of each pipe being axially connected to an arm of the connector. Entrance to the connector is provided by one or more arms transverse to the oppositely extending arms. Preferably, a plurality of sets of pipes are connected by a plurality of such connectors, the discharge from one set providing the inlet to the succeeding set, with collision of exhaust gas streams occurring in the connectors.

Description

United States Patent [191 Bonikowski 1 1 SILENCER FOR INTERNAL COMBUSTION ENGINES [75] Inventor: Leszek Bonikowski, Krakow,
Poland [73] 'Assignee: Wytwornia Silnikow Wysokopreznych Prezedsie-biorstwo Panstwowe, Andrychow, Poland [22] Filed: Nov. 7,1972
[21] Appl. No.: 304,429
Related US. Application Data [63] Continuation of Ser. No. 28,470, Aug. 14, 1970,
abandoned.
[30] Foreign Application Priority Data Apr. 17, 1969 Poland 132996 [52] US. Cl. 181/50, 181/33 L, 181/56 [51] Int. Cl. F01n l/l0 [58] Field of Search 181/33 L, 41, 42, 4446, 181/48-50, 53, 54, 56, 58, 59
[56] References Cited UNITED STATES PATENTS 702,031 6/1902 Ronan 181/33 L 937,665 10/1909 Walton 181/56 1,521,400 12/1924 Shaw 181/58 2,075,263 3/1937 Bourne.... 181/59 UX 2,273,092 2/1942 Dole 181/42 UX 3,181,646 5/1965 Edwards 181/42 FOREIGN PATENTS OR APPLICATIONS 236,172 10/1964 Austria 181/53 [451 Oct. 22, 1974 56,165 6/1952 France 181/56 1,018,594 10/1952 France 181/41 110,638 5/1899 Germany 181/56 1,180,573 10/1964 Germany 181/56 7,678 3/1904 Great Britain.... 181/49 26,165 12/1905 Great Britain.... 181/56 117,868 8/1918 Great Britain.... 60/324 131,434 8/1919 Great Britain.... 60/324 488,847 1/1954 Italy 181/56 496,557 7/1954 Italy 181/56 Primary Examiner-Richard B. Wilkinson Assistant ExaminerJohn F. Gonzales Attorney, Agent, or Firm-Irvin A. Lavine [5 7] ABSTRACT A silencer for an internal combustion engine comprising at least one set of two bowed, perforated pipes enclosed in sound absorbing material within a housing: at least one connector is provided having arms extending in opposite directions, an inlet of each pipe being axially connected to an arm of the connector. Entrance to the connector is provided by one or more arms transverse to the oppositely extending arms. Preferably, a plurality of sets of pipes are connected by a plurality of such connectors, the discharge from one set providing the inlet to the succeeding set, with collision of exhaust gas streams occurring in the connectors.
2 Claims, 1 Drawing Figure This is a continuation of U.S. Pat. application Ser. No. 28,470, filed Apr. 14, 1970 now abandoned.
The present invention relates to a silencer for internal combustion engines designed for reducing the noise of the combustion exhaust gases.
The present invention may also be employed in cases where a necessity arises for miniaturization and mounting on an engine without the intermediary of an exhaust pipe.
The interference silencers now known are designed in a way so as to enable a superposition, due to a differentiation of lengths of flow paths, of the waves travelling in the same direction as the exhaust gas stream.
The operation of the known interference silencers consists of a distribution of a single pressure pulse into a number of smaller pulses which are finally joined together at the outlet of the silencer, with a correspond ing phase shift, into one continuous pulse.
Such a silencer does not reduce the variable frequencies of the sounds. Besides, it has been stated that the flow of exhaust gas stream through a silencer of this type does not fulfill the relative assumptions due to different flow resistances which oppose the flow of the exhaust gases in particular branches of the silencer.
The absorption silencer now known consists of through conduits enclosed within a housing filled with noise-absorbing material.
The operation of an absorption silencer provides for the transformation of the energy of vibrations of high frequency of the exhaust gases flowing through the silencer into heat.
Due to the sound absorption effectiveness of absorption materials, the silencers of this type are efficient only for sounds with frequencies above 500 cycles per second. Therefore, they are not suited for absorption of fundamental frequency, which is the dominant noise characteristic, and which in engines being generally used, amounts to about 200 cycles per second.
In silencers now in general use there exists a dependence of the sound absorption and engine parameters on the volume of the silencer.
The volume of the silencer needed for an average engine, e.g. four-stroke, four-cylinder engine, with dis placement 91.5 cu. in. and rotational speed of about 4000 R.P.M., amounts to 610 cu. in.
This condition, practically, makes it impossible to design efficient exhaust systems as light and compact structures. It makes it necessary to employ at least two silencers, in which different principles of sound absorption for particular bands of frequencies occurring in the characteristic sound level are employed.
The flow resistance encountered in silencers now, properly selected with regard to the loudness, causes an excessive counterpressure, which disturbs the process of charge change in the engine.
The purpose of the present invention is to reduce the noise level due to the exhaust of combustion gases in the whole range of frequencies resulting from the different rotational speeds of an engine, without impairing the engine operating parameters, by means of a silencer of reduced size and simplified design.
This aim has been fulfilled by utilization of an interference absorption set, whose construction and geometrical dimensions cause the generation of standing waves with constant exhaust gas vibration frequency elevated to such a height as to enable a transformation of their energy into heat in a sound absorbing material.
The interference absorption set of the silencer, according to the invention, consists of perforated pipe conduits enclosed in a housing, forming a connected system of pipes and located in absorbing material.
These conduits are formed by symmetrical bowed pipes connected by connector joints where exhaust gas streams collide and are again divided.
The bow-like shape of symmetrical halves of a pair of pipes causes such a conducting of the exhaust gas stream that these exhaust gases flowing from opposite directions, collide in the cross connectors of the pipes, thus causing a generation of standing waves.
These waves are generated from two plane waves being superposed one upon another with opposite displacement speed directions with the same amplitudes.
In order to obtain a plane wave, the diameter of the pipe conduit in the silencer, according to invention, is at least fourfold smaller than the length of a single bowed pipe.
The distances between places of succeeding collisions of exhaust gas streams in the connected system of pipes are spaced in such a manner that the proportions of these distances, being the lengths of single bowed pipes and the speeds of wave displacement in exhaust gas streams flowing through these pipes are maintained at constant values. Stated another way, equal distance proportions are maintained in the system of pipes between successive collision points of the exhaust gases, determined by the pipe lengths, and the velocities of wave propagation in the streams flowing through these pipes.
v This distance is many times smaller than the smallest length of a sound wave being determined, as a result of rotational speed of the'engine, by the frequency of the fundamental component of noise characteristic.
Thus, an elevation and stabilization at equal height of vibration frequencies of waves being formed, are maintained at the same level in all branches i.e., in all branches the wave vibration frequencies are equal.
This frequency is independent of the frequency of waves flowing from the engine and is stabilized by geometrical dimensions of the pipes of the connected systern of the silencer, according to the invention.
The vibration frequency of the waves is raised to a value corresponding to the maximum value of the coefficient of energy absorption, the energy absorption being due to the transformation of the sound energy into heat in the sound absorbing material being used. To this frequency are adapted the form, proportion, and volume of the housing of the silencer, which is a known acoustic reflection filter.
This stabilization of the vibration frequency of waves generated in the silencer, according to the invention, in the whole range of frequencies resulting from the rota tional speeds of the engine, and a simultaneous raising of thesefrequencies to a value corresponding to the maximum value of the coefficient of sound absorption by the absorbing material being used enables the efficient absorption of sounds.
The silencer, according to the invention, whose construction causes the absorption of the wave movement without limiting the flow of exhaust gases, enables a choice of amost advantageous flow resistance on which the improvement of the charge exchange in the engine depends, without impairing-the engine parameters.
The-application of the silencer, according to the invention, to a Diesel engine with a displacement of 397 cu. in. and with fourfold volume as calculated for known silencers, has made possible, by way of example, at 1500 rpm, a lowering of the loudness level dominating inthe noise characteristic of the fundamental frequency band, by 34 dB, without'any negative influence of the operating parameters of the engine.
The increase of the wave vibration frequency tantamount to the decrease of their length, limits the range of spreading of these waves, since the high tones do not spread as wide as-the low tones.
The construction of the silencer, according to the invention, enables its assembling from prefabricated elements, is simple and economic, and provides a possibilityof a choice of an appropriate number of pipes, depending on the degree of sound absorption required In the silencer, according to the invention, the efficiency of sound absorption is independent of the pressure of exhaust gases at the beginning of the cycle of the outlet, due to the superposition of waves with the same parameter, spreading in opposite directions.
The sound-absorption method used in the silencer, according to the'invention, is based on the phenome non of the generation of standing waves and the accompanying dynamic effects, an absence of disturbing transverse waves, making it possible to determine the design parameters of silencers for various types of internal combustion engines, by calculation and tests on motorless stands, as well, and eliminates a fortuitous choice of silencers as is presently practiced.
. The silencer for internal combustion engines, according to the invention, is shown by way of example in the accompanying drawing, in a partial section view, with one half of the housing removed.
Thes'ilencenaccording to the invention, consists of a system of perforated pipe conduits arranged in pairs, enclosed within housing 1, contained in an absorbing material 2, to which system the exhaust gases flow through an inlet pipe 3 and inlet connector 4 and flow out-through outlet connector joint 5 and discharge pipe 6. The pipes, being the elements of the connected system consist of symmetrical perforated pipes or conduits 7 and 8, l and 11, 13 and l4, l6 and l7, l9, and 20, connected in pairs by cross connector joints 9, l2, l and 18, and the inlet connector joint 4 and outlet connector joint 5.
The silencer, with an interference-absorption set, according to the invention, operates in so that an exhaust gas stream flowing in through the pipe 3 fixed in the housing 1 is divided in the inlet connector joint 4 into two streams which flow through oppositely extending pipe conduits 7 and 8, and then collide in the cross connector joint 9.
In this connector joint they are divided into two streams flowing through the pipe conduits l0 and 11, to collide in the cross connector joint 12 and for the third time they divide, flowing into the pipe conduits l3 and 14.
The streams flowing through the pipes 12 and 14 collide for the third time and are divided for the fourth time in the cross connector joint 15 flowing into the pipe conduits l6 and 17.
From the latter the exhaust gases flow, colliding for the fourth time and being divided for the fifth time in the cross connector joint 18 and then flow through the pipe conduits 19 and 20.
The exhaust gas streams flowing in pipe conduits l9 and 20 collide in the outlet connector joint 5 for the fifth time, and then flow out outside the silencer through the exhaust pipe 6fixed in its housing 1.
The connectors each have at least one pair of oppositely extending arms to each of which a perforated pipe is connected. Eachconnector also has either a second pair of arms transverse to the first pair, or a single transverse arm, as in the case of inlet connector 4 and outlet connector 5. v
It is evident that the number of pairs of conduits the silencer, according to the invention, is selected depending on the efficiency of noise absorption connected with the exhaust of combustion gases.
The collisions of streams in connectors joints cause the generation of standing waves with equal vibration frequency independent of the frequency of pulsation of a non-stationary stream of exhaust gases flowing into the silencer.
At the nodes of these waves the speeds of the vibrating points are equal to zero, since the molecules successively approach and move away from the node.
The places of collisions of streams are established at such distances from one another that the standing waves generated in successive branchings of the interference conduits have an equal frequencies of vibrations.
The distance between two successive places of collisions of exhaust gas streams is at least twice smaller than the smallest length of the sound wave as defined by the frequency of the fundamental component of noise characteristics resulting from the highest rotationalspeed of the engine.
The vibration frequency of standing waves generated in the interference conduits, depending on geometrical dimensions of these conduits and parameters of exhaust gases flowing through is adapted to the most. advantageous range of frequency absorption by the absorbing material being applied.
Besides, the geometrical dimensions of the silencer are so selected in relation to the vibration frequency of the exhaust gas stream that it forms an acoustic resonance filter reducing deviations of vibrating molecules due to a dynamic reaction of gases filling the silencer.
I claim: 1. A silencer for an internal combustion engine comprising:
a plurality of sets of pipes, each set comprising two bowed symmetrical pipes each having an inlet and an outlet and being perforated along their lengths,
a connector for the pipe inlets of each set comprising a pair of oppositely extending arms to each of which an inlet of a said pipe is axially connected, and inlet arm means extending transversely of said oppositely extending arms,
a connector for the pipe outlets of each set comprising a pair of oppositely extending arms to each of which an outlet of a said pipe is axially connected, and outlet arm means of said last mentioned con- 3,842,940 v s 6 nector extending transversely of said arms thereof, absorbing material occupying the space in said housing around said pipes and connectors.
the outlets of the pipes of one set being connected to 2. The silencer of claim 1, wherein the diameter of a the inlets of the pipes of a succeeding set by a said connector having two pairs of coplanar oppositely Sam bowed not greater than one'founh extending arms transverse to each other, length thereofa housing for said pipes and connectors, and sound

Claims (2)

1. A silencer for an internal combustion engine comprising: a plurality of sets of pipes, each set comprising two bowed symmetrical pipes each having an inlet and an outlet and being perforated along their lengths, a connector for the pipe inlets of each set comprising a pair of oppositely extending arms to each of which an inlet of a said pipe is axially connected, and inlet arm means extending transversely of said oppositely extending arms, a connector for the pipe outlets of each set comprising a pair of oppositely extending arms to each of which an outlet of a said pipe is axially connected, and outlet arm means of said last mentioned connector extending transversely of said arms thereof, the outlets of the pipes of one set being connected to the inlets of the pipes of a succeeding set by a said connector having two pairs of coplanar oppositely extending arms transverse to each other, a housing for said pipes and connectors, and sound absorbing material occupying the space in said housing around said pipes and connectors.
2. The silencer of claim 1, wherein the diameter of a said bowed pipe is not greater than one-fourth the length thereof.
US00304429A 1969-04-17 1972-11-07 Silencer for internal combustion engines Expired - Lifetime US3842940A (en)

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US2847070A 1970-08-14 1970-08-14
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Cited By (18)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3966015A (en) * 1975-02-19 1976-06-29 General Motors Corporation Silencer element
US3981378A (en) * 1974-10-16 1976-09-21 Horn Construction Co., Inc. Muffler for pile driving apparatus
US5731557A (en) * 1995-12-20 1998-03-24 Richard Norres Fluid guiding element for blocking and damping noise propagating in main passages
WO1998049487A1 (en) * 1997-04-30 1998-11-05 Dayco Products, Inc. Energy attenuation apparatus and method for a system conveying pressurized liquid
US6052990A (en) * 1998-06-25 2000-04-25 Competition Cams, Inc. Exhaust pipe and method and system for enhancing engine performance
US6073656A (en) * 1997-11-24 2000-06-13 Dayco Products, Inc. Energy attenuation device for a conduit conveying liquid under pressure, system incorporating same, and method of attenuating energy in a conduit
US20020100515A1 (en) * 1997-11-24 2002-08-01 Yungrwei Chen Energy attenuation apparatus for a conduit conveying liquid under pressure, system incorporating same, and method of attenuating energy in a conduit
US7036530B2 (en) 1999-12-22 2006-05-02 Dayco Products, Llc Energy attenuation device for a fluid-conveying line and method of attenuating energy in such a line
US20060124186A1 (en) * 1997-11-24 2006-06-15 Dayco Products, Llc Energy attenuation apparatus for a conduit conveying liquid under pressure, system incorporating same, and method of attenuating energy in a conduit
US7249613B1 (en) 2006-02-03 2007-07-31 Dayco Products, Llc Energy attenuation device
US20070284186A1 (en) * 2006-06-09 2007-12-13 Arvin Technologies, Inc. Exhaust system
US20080047623A1 (en) * 2006-02-03 2008-02-28 Yungrwei Chen Energy attenuation device
US20080053547A1 (en) * 1997-11-24 2008-03-06 Yungrwei Chen Energy attenuation apparatus for a conduit conveying liquid under pressure, system incorporating same, and method of attenuating energy in a conduit
US20080210486A1 (en) * 2007-03-02 2008-09-04 Dayco Products, Llc Energy attenuation device
DE202021003793U1 (en) 2021-12-16 2022-01-14 Stefan Burghardt 360° link control for reflection silencer
DE202022000300U1 (en) 2022-02-05 2022-02-18 Stefan Burghardt Reflection silencer with 360° link control with slotted holes
DE202022000229U1 (en) 2022-01-28 2022-03-08 Stefan Burghardt Reflection silencer with 360° link control with slot
DE202021003282U1 (en) 2021-10-21 2022-03-14 Stefan Burghardt Reflective silencer with 360° scene control

Cited By (27)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3981378A (en) * 1974-10-16 1976-09-21 Horn Construction Co., Inc. Muffler for pile driving apparatus
US3966015A (en) * 1975-02-19 1976-06-29 General Motors Corporation Silencer element
US5731557A (en) * 1995-12-20 1998-03-24 Richard Norres Fluid guiding element for blocking and damping noise propagating in main passages
US6123108A (en) * 1997-04-30 2000-09-26 Dayco Products, Inc. Energy attenuation apparatus for a system conveying liquid under pressure and method of attenuating energy in such a system
US5983946A (en) * 1997-04-30 1999-11-16 Dayco Products, Inc. Energy attenuation apparatus for a system conveying liquid under pressure and method of attenuating energy in such a system
US6085792A (en) * 1997-04-30 2000-07-11 Dayco Products, Inc, Energy attenuation apparatus for a system conveying liquid under pressure and method of attenuating energy in such a system
US6089273A (en) * 1997-04-30 2000-07-18 Dayco Products, Inc. Energy attenuation apparatus for a system conveying liquid under pressure and method of attenuating energy in such a system
WO1998049487A1 (en) * 1997-04-30 1998-11-05 Dayco Products, Inc. Energy attenuation apparatus and method for a system conveying pressurized liquid
US6073656A (en) * 1997-11-24 2000-06-13 Dayco Products, Inc. Energy attenuation device for a conduit conveying liquid under pressure, system incorporating same, and method of attenuating energy in a conduit
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DE202021003793U1 (en) 2021-12-16 2022-01-14 Stefan Burghardt 360° link control for reflection silencer
DE202022000229U1 (en) 2022-01-28 2022-03-08 Stefan Burghardt Reflection silencer with 360° link control with slot
DE202022000300U1 (en) 2022-02-05 2022-02-18 Stefan Burghardt Reflection silencer with 360° link control with slotted holes

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