The present invention relates generally to filters, and more particularly to HEPA filter modules adapted for use in connection with standard vacuum equipment to assist in the removal of mold spores, similar toxins and other particulates.
Airborne mold spores can destroy humans' health. Many people are unaware that they are breathing mold spores until they are very sick. If one is lucky and has a minor allergic reaction to the mold, the reaction will subside upon leaving the affected area. It is possible that learning disabilities, mental deficiencies, heart problems bleeding lungs and other serious ailments can result from mold exposure.
Approximately 25 million Americans suffer from allergic reactions to molds, and most do not realize that when they are sneezing and sniffling the cause could be molds. Many molds produce airborne toxins that can cause serious breathing difficulties, memory and hearing loss, dizziness, flu-like symptoms, and bleeding in the lungs. Common ailments from mold—including allergies, asthma and bruising—usually can be treated and reduced after people leave their contaminated environment. But other health problems may remain permanently, such as brain damage and weakened immune systems.
Fungus reproduces into spores that come in many different sizes, shapes and colors. The spores will reproduce and germinate into new mold growth which in turn can produce millions of more spores. Molds are most prevalent from spring through late fall, but in warm climates, molds thrive all year and can cause year-round problems.
Molds can be found wherever there is moisture, oxygen, warmth and something to feed on. In the fall they grow on rotting logs and fallen leaves, especially in moist, shady areas. In gardens, they can be found in compost piles and on certain grasses and weeds. Molds grow in homes in moist warm areas like damp basements, closets, and bathrooms. Also molds can grow in places where fresh food is stored, refrigerator drip trays, house plants, humidifiers, garbage pails, mattresses, upholstered furniture, or foam rubber pillows. Molds can grow inside the walls and flooring of homes, wherever there are wet cellulose materials they can feed on, such as wood, ceiling tiles, or plasterboard.
Molds come in at least a thousand different varieties, but only a few are the offenders that invade homes. Alternaria and Cladosporium are the molds most commonly found both indoors and outdoors throughout the United States. Aspergillus, Penicillium, Helminthosporium, Epicoccum, Fusarium, Mucor, Rhizopus, and Aureobasidium are also common. The most dangerous mold strains are stachybotrys. This black fungus releases toxic, microscopic spores that cause the worst symptoms that are usually irreversible.
The key to mold prevention and mold & mildew removal is to eliminate moisture. Basements must be dried out, and humidity levels should be maintained at about 50% relative humidity or lower to prevent mold growth. Dehumidifiers can be very useful. Vapor steam cleaning or vacuuming with High Efficiency Particulate Absolute (HEPA) filter vacuums can reduce mold spore concentrations in damp areas and carpets, but if not done properly mold spores can remain or be spread into the air.
Vacuum systems that incorporate HEPA filters therein are now prevalent. However, the HEPA filters are permanent parts of the vacuum system. When the filter is cleaned, it is necessary to release the filtered matter into the environment, thus partially defeating the purpose for which the filter was used in the first place.
It is therefore a principal object and advantage of the present invention to provide a disposable and portable HEPA filtration adapter that may be used in combination with conventional vacuum cleaners.
It is a further object and advantage of the present invention to provide a HEPA filter adapter device that may be disposed of without releasing any of the filtered matter into the open atmosphere.
Other objects and advantages of the present invention will in part be obvious, and in part appear hereinafter.
In accordance with the foregoing objects and advantages, a HEPA filter adapter comprises a cylindrical housing having an intake end and an exhaust end. The intake end comprises a diverging nozzle and includes a tubular extension protruding therefrom. The tubular extension includes a flanged end that is positioned within the intake end and prevents it from becoming disconnected therefrom. The tubular extension is adapted to be interconnected to a flexible cleaning hose. The exhaust end includes a tubular extension protruding therefrom that is adapted to be interconnected to the vacuum source. An adjustable collar may be used to secure the connection between the exhaust tube and a tube leading to the vacuum source. In operation, actuation of the vacuum causes air and particles to be drawn through the HEPA filter, entrapping bacteria, spores, and other toxic matter in the filter medium. The adaptor can be discarded after a use without having to expose the filter, thus eliminating the escape of harmful toxins entrapped within the filter media.
The present invention will be more fully understood and appreciated by reading the following Detailed Description in conjunction with the accompanying drawings, in which:
Referring now to the drawings, in which like reference numeral refer to like parts throughout, there is seen in
Intake end 12 includes a constant cross-sectional inlet 18 and a diverging nozzle portion 20 extending from the cross-sectional diameter d1 of inlet 18 to the larger cross-sectional diameter D of filter housing 16. A spring biased valve 22 is positioned adjacent the open end and is selectively movable between full suction, wherein the valve is positioned co-linearly with the longitudinal axis X-X of adapter 10, and fully closed, wherein the valve is positioned perpendicularly to the longitudinal axis X-X. Inlet end 12 is adapted for operation by itself or for connection to conventional cleaning nozzles (not shown.)
Filter housing 16 is of an essentially continuous cross-sectional diameter D and includes a HEPA filter module 24 securely and concentrically positioned therein. Filter module 24 is of a diameter d2, smaller than diameter D, thereby leaving a concentric amount of space between it and then interior wall of filter housing 16. According to one embodiment, large mesh screen 26 (
Outlet 14 is of constant cross-section d1 and may include a flexible hose 30 for interconnecting adapter 10 to a conventional vacuum cleaner, such as a wet vacuum (not shown.) A finger actuated clamp 32 may be used to tighten the connection between hose 30 and a vacuum source. In addition, a pressure relief valve 34 may be incorporated into outlet 14 to permit the amount of suction to be increased or decreased depending on how much capacity filter 24 has at any given point of time.
The present application claims priority to U.S. Provisional Application Ser. No. 60/615,731, filed Oct. 4, 2004, the entirety of which is hereby incorporated by reference.
Number | Date | Country | |
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60615731 | Oct 2004 | US |