Acoustic attenuator

Acoustics – Sound-modifying means – Muffler – fluid conducting type

Reexamination Certificate

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Details

C181S225000

Reexamination Certificate

active

06668970

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to acoustics. More specifically, reducing sound in an HVAC system is disclosed.
BACKGROUND OF THE INVENTION
Mechanical air control equipment of a Heating Ventilation and Air Conditioning (HVAC) system can be a major source of sound in a building. The sound generated by the HVAC system travels both upstream and downstream in the intake air duct and exhaust air duct, respectively. Various sound sources within the duct include blower fans, diffusers, airflow regulating valves, etc. Noise generated by the blower fans is of broad band frequency, typically ranging from about 200 Hz through the rest of the frequency range of human hearing. Therefore, noise generated by HVAC system, when travelling upstream through the very short intake air duct, exits the intake air filter and enters the building living area creating a noise pollution problem.
A cost-efficient HVAC system often requires placing the HVAC heat exchange system in the middle of a building. This exchange system is often placed in a hallway, which frequently leads to a family room, dining room, bedroom, kitchen, etc. Noise generated by the HVAC blower fan and other mechanical parts travels through the short section of the intake air duct and enter the living space. This noise pollution makes normal conversation and comfortable television listening difficult.
Various attempts have been made to minimize the sound generated by an HVAC system. However, these attempts generally address the treatment at the exhaust air duct section, and not the treatment at the intake air duct section. Because the intake air duct section is usually a very short section of the air duct, it leaves very little space for any effective noise treatment. One exhaust air duct treatment system is commonly referred to as a dissipative silencer, which provides a noise attenuating liner either inside or outside the duct. This liner may be mineral wool or fiberglass insulation. These materials moderately attenuate sound over a broad range of frequencies. However, these liners are often not desirable because of large space requirements and the extended length of coverage that is required to produce adequate attenuation.
Additionally, reactive silencers have been used to attenuate sound. They typically consist of perforated metal facings that cover a plurality of tuned chambers. Generally, reactive silencers attenuate low frequency noise. Broad band attenuation is more difficult to achieve with reactive silencers, due to the larger area required to achieve a noticeable result. Another way to reduce the noise in an exhaust duct is by employing an acoustic resonator. This technique includes at least one resonating chamber having walls that define a length and a height. The length of the resonating chamber is selected to provide noise attenuation at a predetermined frequency. Generally, acoustic resonators only attenuate a predetermined frequency or frequencies. To achieve broad band frequency attenuation with an acoustic resonator requires a large number of different lengths and sizes of resonating chambers, which, in turn, requires a large area and volume of work space.
All of the above mentioned noise-attenuating techniques require a large area and volume of workspace which is only possible in the exhaust duct area. The usually short intake air duct provides too small an area for the previous designs to effectively attenuate broad band HVAC noise.
Another attempt to reduce noise is by active noise attenuation. This is accomplished by sound wave interference. Undesirable noise propagating within a duct is attenuated by the introduction of a canceling sound. An input microphone typically measures the undesirable noise up stream in a duct and converts it to an electrical signal. The signal is processed by a digital computer that generates a sound wave of equal amplitude and 180 degrees out of phase (a mirror image of the noise). This secondary noise source destructively interferes with the noise and cancels a significant portion of the unwanted noise. However, the adaptive process that is used to generate the canceling signal can be adversely affected by acoustical reflection from distant elements in the overall duct system. Active attenuation is only useful on low frequency (below about 100 Hz) noise attenuation and is not efficient in attenuating higher frequencies. Additionally, the high cost of this system further limits its use.
SUMMARY OF THE INVENTION
An acoustical reflective and dissipative attenuation system is disclosed that is used to reduce broad band noise in the intake air duct (also referred to as a return air duct) of an HVAC heat exchange system. In many cases, the intake air duct is a very short section of the air duct system with very limited workspace, generally less than 20 cubic feet in volume. Significant broad band noise reduction is achieved by appropriately placing a noise-reflecting panel (shield) with an appropriate amount of acoustic absorbing padding at a strategic location. The reflecting panel contains the noise in the intake air duct section and greatly increases the noise absorption by the acoustic absorbing padding before this noise can exit the intake air duct filter and enter the living area of a building.
It should be appreciated that the present invention can be implemented in numerous ways, including as a process, an apparatus, a system, a device, a method, or a computer readable medium such as a computer readable storage medium or a computer network wherein program instructions are sent over optical or electronic communication links. Several inventive embodiments of the present invention are described below.
In one embodiment, an acoustic attenuator includes an intake air duct having an intake air duct opening leading to an outside environment and a blower fan opening leading to a blower fan wherein air is drawn through the intake air duct opening towards the blower fan and a primary reflecting panel disposed in the intake air duct, the primary reflecting panel being configured to reflect sound propagated from the blower fan away from the intake air duct opening.
In one embodiment, an acoustic attenuator module configured to be housed within an intake air duct having an intake air duct opening includes an open end having sides configured to be attached to passageway leading from the intake air duct to a blower fan; primary reflecting side configured to reflect sound propagating from the blower fan through the open end away from the intake air duct opening; and an open side configured to allow from the air intake air duct opening to circulate around the module through the open side and the open end to the blower fan.
In one embodiment, an acoustic attenuator module configured to be housed within an intake air duct having an intake air duct opening includes an open end having sides configured to be attached to passageway leading from the intake air duct to a blower fan; an open side configured to allow from the air intake air duct opening to circulate through the module through the open end to the blower fan; and a primary reflecting plate offset from the open side to block noise propagated from the blower fan from propagating through the open side.
In one embodiment, sound propagating from a blower fan into a living space through an intake air duct having an intake air duct opening is attenuated by reflecting sound propagated from the blower fan away from the intake air duct opening using a primary reflecting panel in the intake air duct.


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patent: 5183976 (1993-02-01), Plemons, Jr.
patent: 5268541 (1993-12-01), Pettersson
patent: 5347585 (1994-09-01

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