Title of Invention

A HELMHOLTZ RESONATOR ASSEMBLY CONFIGURED FOR USE WITH AN INTERNAL COMBUSTION ENGINE

Abstract An adjustable Helmholtz resonator assembly is provided having an active state and an inactive state. In the active state the Helmholtz resonator assembly is operable to attenuate pressure pulsations within air passing therethrough. In the inactive state the Helmholtz resonator assembly does not attenuate pressure pulsations within air passing therethrough. The Helmholtz resonator assembly is preferably configured to be mounted within an intake system of an internal combustion engine.
Full Text GP-309089-PTE-JK
1
ADJUSTABLE HELMHOLTZ RESONATOR
TECHNICAL FIELD
[0001] The present invention relates to an adjustable Helmholtz resonator
configured for use with an internal combustion engine.
BACKGROUND OF THE INVENTION
[0002] Various methods may be employed to reduce the intake noise of an
internal combustion engine. One method is to use a Helmholtz resonator on an intake
air pipe configured to communicate intake air to the internal combustion engine. The
intake air pipe is typically disposed upstream from an intake manifold and is configured
to communicate intake air to the intake manifold of the internal combustion engine. A
Helmholtz resonator includes a resonance volume or chamber having a small opening,
typically referred to as a neck. The neck is operable to enable communication between
the resonance chamber and the intake air pipe. Sound waves generated by components
within the internal combustion engine travel along the intake air pipe where their
acoustic pressure impinges on the neck and excites a mass of air within the neck. The
acoustic pressure within the resonance chamber reacts against the air mass within the
neck and produces an out-of-phase acoustic pressure at the intake air pipe to cause
cancellation of intake noise at the resonant frequency. In this way, some of the engine
noise is eliminated as the out-of-phase acoustic pressures in the intake air pipe cancel
each other.
SUMMARY OF THE INVENTION
[0003] A Helmholtz resonator assembly is provided having a housing partially
defining at least one volume and a first generally cylindrical sleeve member disposed
within the housing and further defining the at least one volume. A second generally
cylindrical sleeve member is generally coaxially disposed within the generally

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cylindrical first sleeve member and defines a passage through which a gas may pass.
The second generally cylindrical sleeve member is selectively and variably movable
between a first position and a second position with respect to the first generally
cylindrical sleeve member. At least one orifice is defined by the first generally
cylindrical sleeve member and at least one other orifice is defined by the second
generally cylindrical sleeve member. The second generally cylindrical sleeve member
is operable to substantially block the at least one orifice to prevent communication
between the at least one volume and the passage when the second generally cylindrical
sleeve member is in the first position. The at least one other orifice of the second
generally cylindrical sleeve member is operable to unblock the at least one orifice to
allow communication between the at least one volume and the passage when the second
generally cylindrical sleeve member is in the second position. The at least one orifice,
the at least one other orifice, and the at least one volume cooperate to form at least one
Helmholtz resonator when the at least one orifice is unblocked by the second generally
cylindrical sleeve member. An actuator responsive to signals from a controller may be
provided. The actuator is preferably configured to selectively and variably move the
second sleeve member between the first position and the second position.
[0004] The above features and advantages and other features and advantages of
the present invention are readily apparent from the following detailed description of the
best modes for carrying out the invention when taken in connection with the
accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0005] Figure 1 is a schematic diagrammatic illustration of an internal
combustion engine having an intake system with an adjustable Helmholtz resonator
assembly disposed therein;
[0006] Figure 2 is a perspective three quarter sectional view of the adjustable
Helmholtz resonator assembly, schematically depicted in Figure 1, illustrating the
Helmholtz resonator assembly in an inactive state; and

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[0007] Figure 3 is a perspective three quarter sectional view of the adjustable
Helmholtz resonator assembly of Figure 2 illustrating the Helmholtz resonator assembly
in an active state.
DESCRIPTION OF THE PREFERRED EMBODIMENTS
[0008] Referring to the drawings wherein like reference numbers correspond to
like or similar components throughout the several figures there is schematically depicted
in Figure 1 an internal combustion engine 10. The internal combustion engine 10 may be
configured to operate in one of a spark-ignited or compression-ignited mode of operation.
The internal combustion engine 10 includes an intake system 12 operable to
communicate a gas, such as intake air 14 to a plurality of cylinders 16 defined by an
engine block 18 of the internal combustion engine 10. The internal combustion engine
10 further includes an exhaust system 20 operable to exhaust or extract products of
combustion 22 from the cylinders 16.
[0009] The intake system 12 includes an air box 24 configured to hold a filter
element 26 operable to filter or remove particulate matter from the intake air 14 prior to
introduction to a Helmholtz resonator assembly 28. The Helmholtz resonator assembly
28 is configured to mount to a supercharger assembly 29. The supercharger assembly 29
operates to increase the volume of intake air 14 communicated to an intake manifold 30
thereby increasing the volumetric efficiency of the internal combustion engine 10. The
intake manifold 30 is operable to distribute or communicate intake air 14 to the cylinders
16.
[0010] The Helmholtz resonator assembly 28 is adjustable, that is, can be
switched from an active state, wherein noise producing pressure pulsations within the
intake air 14 are substantially attenuated, to an inactive state, wherein the noise producing
pressure pulsations within the intake air 14 are not attenuated. This is especially
beneficial in instances where the internal combustion engine 10 is supercharged. The
supercharger 29 may produce a high pitched "whine" which may be objectionable to
some individuals, but not others. The Helmholtz resonator assembly 28 allows the
flexibility to selectively attenuate this whine should the vehicle operator find it

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objectionable. An actuator 32 is configured to adjust the Helmholtz resonator assembly
28 in response to signals received from a controller 34. The construction and operation
of the Helmholtz resonator 28 will be described in greater detail hereinbelow with
reference to Figures 2 through 3.
[0011] Referring now to Figures 2 and 3, there is shown a three quarter sectional
view of the Helmholtz resonator assembly 28. The Helmholtz resonator assembly 28
includes a housing 36 partially defining a first, second, third, fourth, fifth, and sixth
chamber or volume 38, 40, 42, 44, 46, and 48, respectively. A first generally cylindrical
sleeve member 50 is disposed within the housing 36 and further defines each of the first,
second, third, fourth, fifth, and sixth volumes 38, 40, 42, 44, 46, and 48. A second
generally cylindrical sleeve member 52 is coaxially disposed within the first sleeve
member 50. The second sleeve member 52 is rotatably movable within the first sleeve
member 50, as indicated by arrows 54. The second sleeve member 52 defines a passage
56 through which the intake air 14 passes.
[0012] The first sleeve member 50 defines a first, second, third, fourth, fifth, and
sixth plurality of orifices 58, 60, 62, 64, 66, and 68, respectively, while the second sleeve
member 52 defines a first, second, third, fourth, fifth, and sixth plurality of orifices 70,
72, 74, 76, 78, and 80, respectively. The second sleeve member 52 is movable between a
first position, as shown in Figure 2, and a second position, as shown in Figure 3. With
the second sleeve member 52 in the first position, the second sleeve member substantially
blocks the first, second, third, fourth, fifth, and sixth volumes 38, 40, 42, 44, 46, and 48
from communicating with the passage 56 through the first, second, third, fourth, fifth, and
sixth plurality of orifices 58, 60, 62, 64, 66, and 68. Therefore, with the second sleeve
member 52 in the first position the Helmholtz resonator assembly 28 is in an inactive
state and no attenuation of noise producing pressure pulsations within the intake air 14
occurs.
[0013] With the second sleeve member 52 in the second position the first, second,
third, fourth, fifth, and sixth plurality of orifices 58, 60, 62, 64, 66, and 68 of the first
sleeve member 50 are aligned with the first, second, third, fourth, fifth, and sixth plurality
of orifices 70, 72, 74, 76, 78, and 80 of the second sleeve member 52. Therefore, the

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second sleeve member 52 allows the communication between the first, second, third,
fourth, fifth, and sixth volumes 38, 40, 42, 44, 46, and 48 and the passage 56. As such,
respective first, second, third, fourth, fifth, and sixth plurality of orifices 58, 60, 62, 64,
66, and 68; first, second, third, fourth, fifth, and sixth plurality of orifices 70, 72, 74, 76,
78, and 80; and first, second, third, fourth, fifth, and sixth volumes 38, 40, 42, 44, 46, and
48 cooperate to form first, second, third, fourth, fifth, and sixth Helmholtz resonators 82,
84, 86, 88, 90, and 92, respectively, as shown in Figure 3. Therefore, with the second
sleeve member 52 in the second position the Helmholtz resonator assembly 28 is in an
active state to allow the attenuation of noise producing pressure pulsations within the
intake air 14 to occur.
[0014] The first, second, third, fourth, fifth, and sixth plurality of orifices 70, 72,
74, 76, 78, and 80, defined by the second sleeve member 52, may include slot-like
orifices to permit the second sleeve member 52 to unblock the first, second, third, fourth,
fifth, and sixth plurality of orifices 58, 60, 62, 64, 66, and 68 in a staggered or step-like
fashion as the second sleeve moves from the first position to the second position thereby
enabling variable tuning of the Helmholtz resonator assembly 28. As illustrated in
Figures 2 and 3, the first, second, third, fourth, fifth, and sixth volumes 38, 40, 42, 44, 46,
and 48 are of different sizes; therefore, a plurality of frequencies may be attenuated by
the Helmholtz resonator assembly 28 when in the active state. The housing 36 and the
first and second sleeve members 50 and 52 are preferably formed from plastic. The
housing is configured to be mounted within the intake system 12 of the internal
combustion engine 10, shown schematically in Figure 1, by a coupling member 94. The
coupling member 94 is preferably formed from an elastomeric material such as rubber.
Preferably, the actuator 32, shown in Figure 1, would effect movement of the second
sleeve member 52, through the coupling member 94. In this way, a seal is maintained
within the intake system 12 to prevent the leakage of ambient air into the intake air 14.
Actuation may be effected by pressing a lever, not shown, attached to the second sleeve
member 52 through the coupling member 94. Additionally, actuation may be effected via
a solenoid, not shown, acting on the second sleeve member 52 via a ferrous plunger, not
shown, or lever, not shown. Although the second sleeve member 52 is shown in Figures

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2 and 3 to rotate within the first sleeve member 50 between the first and second position,
movement of the second sleeve member 52 in the axial position is also envisioned. In a
preferred embodiment, the housing 36 and the first and second sleeve members 50 and 52
are formed from plastic; however, those skilled in the art will recognize other materials
may be used, such as aluminum, while remaining within the scope of that which is
claimed.
[0015] While the best modes for carrying out the invention have been described
in detail, those familiar with the art to which this invention relates will recognize various
alternative designs and embodiments for practicing the invention within the scope of the
appended claims.

GP-309089-PTE-JK
7
CLAIMS
1. A Helmholtz resonator assembly comprising:
a housing partially defining at least one volume;
a first sleeve member disposed within said housing and further
defining said at least one volume;
a second sleeve member generally coaxially disposed within said
first sleeve member and defining a passage through which a gas may pass;
wherein said second sleeve member is selectively and variably
movable with respect to said first sleeve member between a first position and a second
position;
at least one orifice defined by said first sleeve member;
at least one other orifice defined by said second sleeve member;
wherein said second sleeve member substantially blocks said at
least one orifice to prevent communication between said at least one volume and said
passage when said second sleeve member is in said first position;
wherein said at least one other orifice of said second sleeve
member aligns with said at least one orifice to allow communication between said at least
one volume and said passage when said second sleeve member is in said second position;
and
wherein said at least one orifice, said at least one other orifice, and
said at least one volume cooperate to form at least one Helmholtz resonator when said at
least one other orifice of said second sleeve member aligns with said at least one orifice.
2. The Helmholtz resonator assembly of claim 1, wherein said first
and second sleeve members are generally cylindrical in shape.
3. The Helmholtz resonator assembly of claim 1, wherein said
housing, said first sleeve member, and said second sleeve member are formed from
plastic.

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4. The Helmholtz resonator assembly of claim 1, wherein said
housing is configured to mount to an internal combustion engine.
5. The Helmholtz resonator assembly of claim 1:
wherein said at least one orifice includes a first and second orifice;
wherein said at least one other orifice includes a third and fourth
orifice;
wherein said at least one volume includes a first volume and a
second volume; and
wherein said third orifice is configured to align with said first
orifice to allow communication between said first volume and said passage prior to said
fourth orifice aligning with said second orifice to allow communication between said
second volume and said passage as said second sleeve member moves from said first
position to said second position.
6. The Helmholtz resonator assembly of claim 1, further comprising:
an actuator responsive to signals from a controller; and
wherein said actuator is configured to selectively and variably
move said second sleeve member between said first position and said second position.
7. A Helmholtz resonator assembly for an internal combustion engine
comprising:
a housing partially defining a first volume and at least one other
volume;
a first sleeve member disposed within said housing and further
defining said first volume and said at least one other volume;
a second sleeve member movably disposed within said first sleeve
member, said second sleeve member being movable between a first position and a second
position and defining a passage through which a gas may pass;

GP-309089-PTE-JK
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a first and at least one other plurality of orifices defined by said
first sleeve member;
a first and at least one other plurality of orifices defined by said
second sleeve member;
wherein said second sleeve member substantially blocks said first
plurality of orifices and said at least one other plurality of orifices defined by said first
sleeve member to prevent communication between said first volume and said at least one
other volume and said passage when said second sleeve member is in said first position;
wherein said second sleeve member substantially aligns said first
plurality of orifices and said at least one other plurality of orifices defined by said first
sleeve member to allow communication between said first volume and said at least one
other volume and said passage when said second sleeve member is in said first position;
wherein said at first plurality of orifices defined by said first sleeve
member, said first plurality of orifices defined by said second sleeve member, and said at
first volume cooperate to form a first Helmholtz resonator when said first plurality of
orifices defined by said first sleeve member is aligned with said first plurality of orifices
defined by said second sleeve member; and
wherein said at least one other plurality of orifices defined by said
first sleeve member, said at least one other plurality of orifices defined by said second
sleeve member, and said at least one other volume cooperate to form at least one other
Helmholtz resonator when said at least one other plurality of orifices defined by said first
sleeve member is aligned with said at least one other plurality of orifices defined by said
second sleeve member.
8. The Helmholtz resonator assembly for an internal combustion
engine of claim 7, wherein said first and second sleeve members are generally cylindrical
in shape.

GP-309089-PTE-JK

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9. The Helmholtz resonator assembly for an internal combustion
engine of claim 7, wherein said housing, said first sleeve member, and said second sleeve
member are formed from plastic.
10. The Helmholtz resonator assembly for an internal combustion
engine of claim 7, further comprising:
an actuator responsive to signals from a controller; and
wherein said actuator is configured to selectively and variably
move said second sleeve member between said first position and said second position.
11. The Helmholtz resonator assembly for an internal combustion
engine of claim 7, further comprising a coupling member configured to mount said
housing to the internal combustion engine.
12. The Helmholtz resonator assembly for an internal combustion
engine of claim 7, wherein the Helmholtz resonator assembly is configured to mount
within an intake system of the internal combustion engine and wherein said gas is intake
air.
13. A Helmholtz resonator assembly comprising:
a housing partially defining at least one volume;
a first generally cylindrical sleeve member disposed within said
housing and further defining said at least one volume;
a second generally cylindrical sleeve member generally coaxially
disposed within said generally cylindrical first sleeve member and defining a passage
through which a gas may pass;
wherein said second generally cylindrical sleeve member is
selectively and variably movable with respect to said first generally cylindrical sleeve
member between a first position and a second position;

GP-309089-PTE-JK
11
at least one orifice defined by said first generally cylindrical sleeve
member;
at least one other orifice defined by said second generally
cylindrical sleeve member;
wherein said second generally cylindrical sleeve member
substantially blocks said at least one orifice to prevent communication between said at
least one volume and said passage when said second generally cylindrical sleeve member
is in said first position;
wherein said at least one other orifice of said second generally
cylindrical sleeve member aligns with said at least one orifice to allow communication
between said at least one volume and said passage when said second generally cylindrical
sleeve member is in said second position;
wherein said at least one orifice, said at least one other orifice, and
said at least one volume cooperate to form at least one Helmholtz resonator when said at
least one orifice is aligned with said at least one other orifice of said second generally
cylindrical sleeve member;
an actuator responsive to signals from a controller; and
wherein said actuator is configured to selectively and variably
move said second sleeve member between said first position and said second position.
14. The Helmholtz resonator assembly of claim 13, wherein the
Helmholtz resonator assembly is configured to mount within an intake system of an
internal combustion engine and wherein said gas is intake air.

An adjustable Helmholtz resonator assembly is provided having an active
state and an inactive state. In the active state the Helmholtz resonator assembly is
operable to attenuate pressure pulsations within air passing therethrough. In the inactive
state the Helmholtz resonator assembly does not attenuate pressure pulsations within air
passing therethrough. The Helmholtz resonator assembly is preferably configured to be
mounted within an intake system of an internal combustion engine.

Documents:

01585-kol-2007-abstract.pdf

01585-kol-2007-assignment.pdf

01585-kol-2007-claims.pdf

01585-kol-2007-correspondence others 1.1.pdf

01585-kol-2007-correspondence others.pdf

01585-kol-2007-description complete.pdf

01585-kol-2007-drawings.pdf

01585-kol-2007-form 1.pdf

01585-kol-2007-form 2.pdf

01585-kol-2007-form 3.pdf

01585-kol-2007-form 5.pdf

01585-kol-2007-priority document.pdf

1585-KOL-2007-(20-06-2012)-CORRESPONDENCE.pdf

1585-KOL-2007-(20-06-2012)-PA.pdf

1585-KOL-2007-(30-01-2012)-CORRESPONDENCE.pdf

1585-KOL-2007-(30-01-2012)-FORM 1.pdf

1585-KOL-2007-(30-01-2012)-FORM 2.pdf

1585-KOL-2007-(30-01-2012)-FORM 3.pdf

1585-KOL-2007-(30-01-2012)-OTHERS.pdf

1585-KOL-2007-ABSTRACT-1.1.pdf

1585-KOL-2007-AMANDED CLAIMS.pdf

1585-KOL-2007-ASSIGNMENT.pdf

1585-KOL-2007-CORRESPONDENCE 1.1.pdf

1585-KOL-2007-CORRESPONDENCE OTHERS 1.2.pdf

1585-KOL-2007-CORRESPONDENCE OTHERS 1.3.pdf

1585-KOL-2007-CORRESPONDENCE OTHERS 1.4.pdf

1585-KOL-2007-CORRESPONDENCE.pdf

1585-KOL-2007-DESCRIPTION (COMPLETE)-1.1.pdf

1585-KOL-2007-DRAWINGS-1.1.pdf

1585-KOL-2007-EXAMINATION REPORT REPLY RECIEVED.pdf

1585-KOL-2007-EXAMINATION REPORT.pdf

1585-KOL-2007-FORM 1-1.1.pdf

1585-KOL-2007-FORM 18.pdf

1585-KOL-2007-FORM 2-1.1.pdf

1585-KOL-2007-FORM 3 1.2.pdf

1585-KOL-2007-FORM 3-1.1.pdf

1585-KOL-2007-FORM 5.pdf

1585-KOL-2007-GPA.pdf

1585-KOL-2007-GRANTED-ABSTRACT.pdf

1585-KOL-2007-GRANTED-CLAIMS.pdf

1585-KOL-2007-GRANTED-DESCRIPTION (COMPLETE).pdf

1585-KOL-2007-GRANTED-DRAWINGS.pdf

1585-KOL-2007-GRANTED-FORM 1.pdf

1585-KOL-2007-GRANTED-FORM 2.pdf

1585-KOL-2007-GRANTED-LETTER PATENT.pdf

1585-KOL-2007-GRANTED-SPECIFICATION.pdf

1585-KOL-2007-OTHERS 1.2.pdf

1585-KOL-2007-OTHERS-1.1.pdf

1585-KOL-2007-OTHERS.pdf

1585-KOL-2007-PETITION UNDER RULE 137.pdf

1585-KOL-2007-REPLY TO EXAMINATION REPORT.pdf

1585-KOL-2007-TRANSLATED COPY OF PRIORITY DOCUMENT.pdf

abstract-01585-kol-2007.jpg


Patent Number 253858
Indian Patent Application Number 1585/KOL/2007
PG Journal Number 35/2012
Publication Date 31-Aug-2012
Grant Date 29-Aug-2012
Date of Filing 23-Nov-2007
Name of Patentee GM GLOBAL TECHNOLOGY OPERATIONS, INC.
Applicant Address 300 GM RENAISSANCE CENTER, DETROIT, MICHIGAN
Inventors:
# Inventor's Name Inventor's Address
1 ROXANN M. BITTNER 2816 BAMLET ROAD, ROYAL OAK, MICHIGAN 48073
2 GREGORY P. PRIOR 551 OAKLAND AVENUE, BIRMINGHAM MICHIGAN 48009
PCT International Classification Number F02M35/104
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 11/625902 2007-01-23 U.S.A.