Duct Mounted Sound Attenuating Baffle with an Internally Suspended Mass Layer

Abstract

A sound attenuating baffle mounts within the duct section of an air distribution HVAC system, a ventilation system, or other air movement system for either air or gas streams, in which the duct section can be mounted directly to a fan or incorporated into a transmission duct. The sound attenuating baffle is typically oriented in the flow direction through the duct, and includes an outer casing containing sound absorbing material therein. An internal mass layer formed of a sound barrier material is suspended within the sound absorbing material which fills the outer casing. The mass layer increases the low frequency sound attenuation of the sound attenuating baffle.

Claims

1. A sound attenuating baffle device for use in a duct receiving a gaseous flow in a flow direction therethrough, the baffle device comprising: an outer casing including two opposed faces having i) a length spanning in a longitudinal direction between a leading end and a trailing end of the outer casing, ii) a width spanning in a lateral direction between opposing sides of the outer casing, and iii) a thickness between the two opposed faces which is reduced in dimension relative to the length and the width, the outer casing being adapted to be supported within the duct such that the longitudinal direction is aligned with the flow direction; sound absorbing material occupying a hollow interior of the outer casing between the two opposed faces; a layer of sound barrier material supported within the hollow interior of the outer casing so as to be surrounded by the sound absorbing material.

2. The device according to claim 1 wherein the layer of sound barrier material comprises a uniform sheet.

3. The device according to claim 1 wherein the layer of sound barrier material spans a majority of the width of the outer casing.

4. The device according to claim 1 wherein the layer of sound barrier material spans a majority of the length of the outer casing.

5. The device according to claim 1 wherein a perimeter edge of the layer of sound barrier material is supported to be spaced apart from a material of the outer casing about a full perimeter of the layer of sound barrier material.

6. The device according to claim 5 wherein the layer of sound barrier material is fully suspended relative to the outer casing by the sound absorbing material.

7. The device according to claim 5 wherein the layer of sound barrier material is fully suspended relative to the outer casing by resilient material mounts connected between the layer of sound barrier material and the outer casing.

8. The device according to claim 1 wherein the layer of sound barrier material is supported equidistant to the two opposed faces across the length and the width of the outer casing.

9. The device according to claim 1 wherein the layer of sound barrier material comprises a sheet of metal.

10. The device according to claim 1 wherein each of the two opposed faces of the outer casing comprises a perforated sheet material.

11. The device according to claim 1 wherein the outer casing is adapted to span a full width of the duct in the lateral direction.

12. The device according to claim 1 in combination with at least one auxiliary baffle identical in configuration to the sound attenuating baffle device in parallel and spaced apart relation to the sound attenuating baffle device.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] FIG. 1 is a perspective view of an exemplary duct locating a silencer comprising sound attenuating baffles according to the present invention therein;

[0017] FIG. 2 is a schematic sectional view along the line 2-2 of FIG. 1;

[0018] FIG. 3 is a schematic sectional view along the line 3-3 of FIG. 2; and

[0019] FIG. 4 is a detailed sectional view along the line 3-3 of FIG. 2.

[0020] In the drawings like characters of reference indicate corresponding parts in the different figures.

DETAILED DESCRIPTION

[0021] Referring to the accompanying figures there is illustrated a sound attenuating baffle device generally indicated by reference numeral 10. The device 10 is particularly suited for use in a silencer apparatus for attenuating sound in a ducted flow. The duct may be any suitable size or shape for receiving a flow of air or gas therethrough in a flow direction of the duct in air distribution HVAC systems, ventilation systems and other air movement systems for either air and gas streams

[0022] In the illustrated embodiment, the duct is a transitional duct section 12 having a rectangular cross-section which tapers to be reduced in cross-sectional area from an inlet end 14 to an outlet end 16. In further embodiments however, the sound attenuating baffle device 10 can be readily applied to any other type of duct including a straight duct section, or an elbow duct section while still achieving the benefits described herein. The flow direction through the duct is understood herein to correspond to the direction that air moves through the duct. In a straight or transitional duct, the flow direction is typically linear from the inlet to the outlet end fo the duct; however, in an elbow duct, the flow direction is understood to follow a generally curved path from the inlet to the outlet of the duct.

[0023] A silencer apparatus is mounted within the duct comprised of one or more baffle devices 10. In the illustrated embodiment, the silencer apparatus mounted within the duct 12 comprises two baffle devices 10 which are mounted parallel and spaced apart from one another within the perimeter boundary of the duct.

[0024] Each baffle device 10 extends in a lateral direction across a full width of the duct between two opposing sides 18 of the baffle. Each baffle also extends in a longitudinal direction generally parallel to the flow through the duct from a leading end 20 of the baffle device to a trailing end 22. The baffle device is generally uniform in shape in the lateral direction across the full width. A thickness of the baffle device, measured perpendicularly to both the lateral and longitudinal directions, tapers in the flow direction so as to be reduced in overall thickness from the leading end 20 to the trailing end 22.

[0025] Each baffle device includes an outer casing 24 in the form of a shell which defines the outer boundary of the baffle device. The outer casing 24 includes a first cap 26 spanning laterally across the full width of the baffle device at the leading end. The first cap 26 is formed of sheet metal and is generally concave at the outer side in the direction of the thickness of the baffle, while extending generally linearly across the full width of the baffle in the lateral direction with a uniform profile. The first cap 26 is typically formed to be devoid of perforations so as to be generally domed and aerodynamic in shape. In the illustrated embodiment mounting flanges 28 are formed at opposing ends of the first cap 26 for mounting two opposing side walls of the surrounding duct, however in further embodiments various other means may be used to support the baffle device relative to the duct.

[0026] The outer casing 24 further comprises two opposed faces 30 comprising perforated metal liner sheets which are generally planar in shape for spanning the full width and substantially the full length of the outer casing. The overall thickness of the baffle is defined by the distance between the two opposed faces 30.

[0027] A second cap 32 is mounted between the two opposed faces 30 at the trailing end of the baffle device to span the full width between opposing sides of the duct and to span the full thickness between the opposing faces. The second cap 32 may be planar in shape, oriented perpendicularly to the flow direction through the duct. Mounting flanges 34 are also provided at opposing ends of the second cap 32 for mounting to opposing side walls of the duct according to the illustrated embodiment, however in further embodiments various other means may be used to support the baffle as noted above. The second cap 32 in the illustrated embodiment is a solid panel.

[0028] The perforated liner sheets defining the two opposed faces 30 of each baffle device are oriented generally in the flow direction, however, the faces 30 are sloped by a few degrees relative to the flow direction such that the two opposed faces taper towards one another to reduce the overall thickness therebetween in the flow direction from the first cap 26 at the leading end to the second cap 34 at the trailing end.

[0029] A hollow interior of the resulting outer casing 24 is filled with a sound absorbing material 36. Sound absorbing materials suitable for use with the present invention include lightweight, porous or loose fill materials such as fibrous material including fiberglass, mineral wool, or natural cotton media for example, which have the ability to dissipate sound energy travelling therethrough.

[0030] A layer of sound barrier material 38 in the form of a uniform metal sheet devoid of apertures is mounted within the hollow interior of the outer casing so as to be fully surrounded by the sound absorbing material 36. The sheet forming the sound barrier material spans nearly the full width and nearly the full length in the lateral and longitudinal directions of the baffle device.

[0031] In the illustrated embodiment, the layer of sound barrier material 38 is shown as a single, unitary, continuous sheet. In further embodiments however, the layer of sound barrier material 38 may be formed of a plurality of sheets which are connected or supported in proximity with one another relative to the surrounding casing 24 to provide the function of a single, continuous barrier.

[0032] Also in the illustrated embodiment, the sheet is shown to be centred between the perforated sheets forming the two opposed faces 30 in the direction of thickness of the baffle device such that the layer of sound barrier material is supported to be equidistant to the two opposed faces and such that a perimeter edge of the layer of sound barrier material is spaced apart from the perforated sheet material forming the outer casing about the full perimeter of the layer of sound barrier material. In further embodiments however, any location of the layer of sound barrier material 38 within the surrounding outer casing 24 which maintains no direct contact between the layer of sound barrier material 38 and the surrounding casing 24 would be effective at achieving some or all of the benefits of the present invention.

[0033] In one embodiment, the perimeter edge of the metal sheet 38 is maintained in spaced relation with the outer casing about the full perimeter by the sound absorbing material 36 which is compressed between the metal sheet 38 and the surrounding outer casing.

[0034] Alternatively, resilient mounts 40 may be optionally positioned about the perimeter of the metal sheet 38 to mount the metal sheet relative to the surrounding outer casing. The resilient mounts 40 may comprise rubber or neoprene isolators mounted between the metal sheet 38 and the outer casing structural supports.

[0035] Since various modifications can be made in my invention as herein above described, it is intended that all matter contained in the accompanying specification shall be interpreted as illustrative only and not in a limiting sense.