The invention relates to an apparatus for evacuating air from an area above a body of liquid, and in particular an apparatus for evacuating contaminants and water vapor from an area above a swimming pool and exhausting the contaminants and water vapor to an area outside of an enclosure housing the swimming pool. The invention also provides a method for evacuating contaminants and water vapor from an enclosure housing a swimming pool.
In one embodiment of the invention comprises a perimeter drain assembly extending around the swimming pool, at least one conduit in communication with a channel defined by the drain assembly, at least one port in the conduit for directing air, at least one port in the conduit for directing liquid, at least one exhaust conduit, and at least one exhaust apparatus for drawing and directing the contaminants and water vapor to a desired area separate and apart from the swimming pool enclosure or facility.
In another embodiment, the invention provides a method for evacuating contaminants and water vapor from an enclosure housing a swimming pool comprising the steps of directing a flow of air against and/or across the surface of a swimming pool, creating a zone of containment for contaminants and water vapor substantially above the swimming pool, and evacuating the contaminants and water vapor across the pool surface into at least one port defined by the conduit and into an exhaust system.
The chemicals used to treat water in a swimming pool create contaminants that may be harmful to swimmers and others present within an enclosure housing a swimming pool (e.g., a natatorium). The water in the swimming pool also creates water vapor (i.e., humidity) within the swimming pool facility. The contaminants (e.g., chloramine) can irritate the eyes and air passages of individuals in and around the pool area. The contaminants such as chloramine are present in the air within the swimming pool enclosure, but are concentrated in an area immediately above the surface of the swimming pool. Unfortunately, greater amounts of chloramine are created when the swimming pool is in use due to swimmers agitating the water (e.g., swimming and splashing). Moreover, the high humidity within the enclosure creates an uncomfortable environment for individuals and can affect the physical structure (e.g., girders and roofing) forming the enclosure (e.g., corrosion).
Moreover, the high humidity formed within the enclosure housing a swimming pool requires that a heating, ventilating, and air conditioning (HVAC) system run almost continuously to circulate and dehumidify the air contained within the enclosure. In addition, the HVAC system runs nearly continuously to circulate the air in order to avoid high concentrations of contaminants in the air.
It is desirable therefore to reduce the levels of contaminants and humidity within the enclosure housing a swimming pool. Moreover, it is desirable for swimming pool facilities to improve the efficiency of the HVAC system in order to reduce costs associated with circulating, filtering, and dehumidifying the air within the swimming pool facility.
Accordingly, the present invention addresses the requirements for an energy-efficient apparatus and method for evacuating contaminants and water vapor from a swimming pool facility.
The invention comprises in one embodiment a perimeter deck drain assembly extending around the swimming pool, at least one conduit in communication with a channel defined by the deck drain assembly, at least one port defined by the conduit for directing air, at least one port defined by the conduit for directing liquid, at least one exhaust conduit, and at least one exhaust apparatus for drawing and directing the contaminants and water vapor to a desired area separate and apart from the swimming pool facility. The evacuation system may include bench seating with ports for positioning adjacent the surface of a pool and for receiving air flow therein that can be directed to an appropriate exhaust system.
In another embodiment, the invention provides a method for evacuating contaminants and water vapor from an enclosure housing a swimming pool comprising the steps of directing a flow of air against the surface of a swimming pool, creating a zone of containment for contaminants and water vapor substantially above the swimming pool, and evacuating the contaminants and water vapor across the pool surface into at least one port defined by the conduit and into an exhaust system.
The foregoing and other objects and advantages of the invention and the manner in which the same are accomplished will become clearer based on the following detailed description taken in conjunction with the accompanying drawing in which various embodiments of the invention are depicted.
a is a cross-sectional side view of one embodiment of the invention;
b is a partial enlarged view of the embodiment of the invention depicted in
a is a cross-sectional side view of one embodiment of the invention;
b is a partial enlarged view of the embodiment of the invention depicted in
a is a cross-sectional side view of one embodiment of the invention;
b is a partial enlarged view of the embodiment of the invention depicted in
The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which a preferred embodiment of the invention is shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.
The invention 10 comprises in one embodiment a perimeter deck drain assembly 11 extending around a body of water (e.g., swimming pool 17), at least one conduit 12 positioned substantially adjacent to the deck drain assembly, at least one exhaust conduit 13 for evacuating contaminants and water vapor, and at least one exhaust apparatus 14 for drawing and directing the contaminants and water vapor to a desired area. The embodiments of the invention disclosed herein are adapted to be integrated with an HVAC system associated with standard swimming pool construction as well as standard chloramines evacuation systems.
As shown in
The conduit 12 is in communication with the channel 20 and is positioned substantially adjacent thereto. For example, in one embodiment the conduit 12 is secured to one of the side panels 16A, 16B opposite the side panel adjacent to the pool. Stated differently, the conduit 12 may be secured to a back side panel of the deck drain assembly. In one embodiment, the conduit is positioned slightly above the side panels.
It will be understood that the conduit may be formed from any number of materials suitable for construction in connection with swimming pools. For example, the conduit 12 may be formed from polyvinyl chloride (PVC), stainless steel or concrete.
The conduit 12 defines at least one port 22 for directing air and at least one port 23 for directing liquid. It will be understood that any number of ports for directing air and fluid (e.g., water) may be positioned about the conduit and perimeter deck drain assembly. Moreover, the ports 22, 23 for directing air and water may be of varying sizes depending upon the size of the swimming pool and pool facility, and requirements to create a uniform draw to properly evacuate contaminants and water vapor. Depending upon the pool structure, the ports may be formed in the PVC, stainless steel, or concrete forming the perimeter gutter assembly.
Advantageously, the conduit 12 evacuates contaminants and water vapor suspended above a body of liquid (e.g., swimming pool) when a flow of air 24 traveling across the pool surface enters the channel 20 of the perimeter deck drain assembly and the ports 22 for directing air.
As shown in
In one embodiment depicted in
In one embodiment, the port for directing air 22 and the port for directing liquid 23 are substantially coplanar with respect to one another (see
In another embodiment, the port for directing air 22 and the port for directing liquid 23 are substantially perpendicular with respect to one another (see
As shown in
The invention may further include at least one air source 26 for directing a flow of air downward against the surface of the swimming pool 17 as depicted in
In operation, the flowing air from the air source 26 creates a zone 30 for containing contaminants and water vapor substantially above and adjacent to the pool surface (see
The invention may also include one or more of additional air sources 27 for circulating a flow of air substantially adjacent to the containment zone 30 as depicted in
Advantageously, the subject invention evacuates contaminants and water vapor where it is most heavily concentrated (i.e., above the pool surface) and prevents the contaminants and water vapor from disseminating throughout the swimming pool facility. Conventional systems merely mix and recirculate air containing contaminants and water vapor continuously in an effort to reduce chloramine and humidity levels within the swimming pool facility by dilution. As configured, the present novel invention works in unison with (i.e., balanced with) the HVAC system to reduce the number of air changes per hour (ACH) throughout the entire facility required to maintain safe levels of contaminants and a comfortable level of humidity and air quality. This is accomplished by evacuating contaminants and water vapor directly from the area most affected—i.e., the air in the containment zone 30 immediately above the swimming pool surface. By focusing evacuation in the containment zone 30, fewer number of air changes are required in the areas adjacent to the containment zone. In other words, the apparatus affects an area smaller than the entire area of the facility (i.e., the area immediately above the swimming pool surface) and is capable of increasing the number of air changes per hour (ACH) within the containment zone. By doing so, the apparatus 10 reduces the number of air changes per hour (ACH) required in the areas adjacent to the containment zone.
As depicted in
The invention may also include an enclosure 31 for housing the apparatus and swimming pool.
The invention also provides a method for evacuating contaminants and water vapor from an enclosure 31 housing a swimming pool 17. The method includes the steps of directing a flow of air against the surface of the swimming pool, creating a zone of containment 30 for contaminants and water vapor substantially above the swimming pool, and evacuating the contaminants and water vapor across the pool surface. The contaminants and water vapor are directed into the ports 22 defined by the conduit 12 positioned substantially adjacent to the pool surface and into an exhaust system.
In summary, the present apparatus and method provides the following advantageous benefits: reduces the level of contaminants and water vapor in the entire enclosure housing a swimming pool; operates in conjunction with HVAC system to remove contaminants, reduce humidity levels in the facility and thereby improve overall air quality; decreases the amount of heat in the facility; reduces the requirement to operate dehumidifiers within the HVAC system; reduces the number of air changes per hour (ACH) required to maintain safe contaminant levels and reduce humidity within the facility; reduces tonnage (i.e., amount of airflow) required of an HVAC system to recirculate and dehumidify air, and to reduce the concentration of contaminants (e.g., chloramine) within the facility; reduces the operating costs of a HVAC system (i.e., compressor and dehumidifier); and improves energy efficiency resulting from the variable operation of the subject invention (i.e., operates during peak demand when the pool is in use and is idle during off hours when the pool is closed); operates during peak demand or upon demand dependent upon humidity levels in the facility.
Furthermore, the subject apparatus and method decreases the amount of tonnage necessary to circulate and dehumidify air in a swimming pool facility, thereby reducing the size of new enclosures for swimming pools necessary to circulate and dehumidify the air contained therein.
In addition to new construction, the apparatus 10 is also suitable for retrofit applications for existing swimming pool facilities. By retrofitting existing facilities with the novel apparatus, one may be able to reduce the number of dehumidifiers required to maintain comfortable levels of humidity, or at least minimize the operating time of existing dehumidifiers, thereby improving energy efficiency and reducing operating costs.
In the drawings and specification, there have been disclosed typical embodiments on the invention and, although specific terms have been employed, they have been used in a generic and descriptive sense only and not for purposes of limitation, the scope of the invention being set forth in the following claims.
In another embodiment set forth in
Advantageously, the upper section 44 of the gutter assembly 40 is adjustable for height and supports the grating system 42. Specifically, the upper section 44 of the deck drain assembly 40 includes an adjustable neck 48. As shown in
The tray 41 is secured to lower portions of the two side panels 43A, 43B of the deck drain assembly 40. The apparatus may include any number of trays 41 sufficient to form a bottom panel 60 of the assembly. One or more trays 41 may be sloped towards one or more drains such that water entering the grating system 42 and conduit 46 will be directed to the drain for recirculation.
The grating system 42 is positioned against the upper section 44 of the deck drain assembly 40. The grating system 42 includes at least one grate section 55 defining a plurality of openings 56 for receiving liquid or water from a swimming pool deck and a support 57 secured to the upper section 44 of the deck drain assembly 40. The support 57 releasably secures the grate sections 55 to the deck drain assembly 40. The grate sections 55 having openings 56 may be interspersed with grate sections 55 having no openings depending upon the size and shape of the swimming pool and the requirements for providing sufficient recirculation of the water.
The invention may also include at least one support member 58 for supporting the gutter assembly 40. In one embodiment, the support member 58 is secured with rebar to concrete or other material forming the swimming pool.
The invention may also include at least one exhaust conduit 13 for evacuating contaminants and water vapor, and at least one exhaust apparatus 14 for drawing and directing the contaminants and water vapor to a desired area. The exhaust conduit 13 for evacuating the contaminants and water vapor is in communication with the conduit 46 of the deck drain assembly 40. The exhaust apparatus 14 draws and directs the contaminants and water vapor to a desired area spaced apart from the swimming pool (e.g., an exhaust vent outside of the swimming pool facility).
As described earlier, at least one air source 26 for directing a flow of air against the surface of the swimming pool may be provided. In operation, the flowing air from the air source 26 creates a zone 30 for containing contaminants and water vapor substantially above the pool surface. The flowing air directs contaminants and water vapor from the containment zone 30 through the grating system 42 into the conduit 46 and to the exhaust conduit 13. As depicted in
As previously discussed, this embodiment may also include at least one air source 28 for directing a flow of air 24 across the surface of the swimming pool 17. This embodiment may further include at least another air source 27 for circulating a flow of air substantially adjacent to the containment zone 30, such that the flowing air maintains the integrity of the containment zone and facilitates circulation of air substantially adjacent to the containment zone.
This particular embodiment may also include an enclosure 31 for housing the apparatus and swimming pool.
A method incorporating this latest embodiment is also provided. The method includes the steps of directing a flow of air against and/or across the surface of the swimming pool, creating a zone of containment for contaminants and water vapor substantially above the swimming pool, and evacuating the contaminants and water vapor across the pool surface, into at least one conduit 46 positioned substantially adjacent the pool surface, and into an exhaust system.
The invention includes yet another embodiment in which the ports for evacuating contaminants and water vapor are conveniently implemented in the form of a deck bench as illustrated in
So long as the ports 22 are accessible to the air flow above the body of liquid, the system will efficiently transport contaminants away from the liquid. The bench assembly may be sized as appropriate for the amount of contamination to be removed (e.g., sections of 16 inches by 16 inches allow for 256 square inches of air flow). The body of the bench assembly 70 and its component sections 70A-70C may comprise any materials that are convenient for manufacturing the sections and that can withstand the pressures used in the system. Bench assemblies of molded plastics or shaped metals are within the scope of the invention described herein. The number of ports 22 and the number of sections 70A-70C may be adjusted to fit the use at hand. The bench assembly may be placed in one or more regions around the body of liquid or may encompass the entire perimeter of the body of liquid.
In the drawings and specification, there have been disclosed typical embodiments on the invention and, although specific terms have been employed, they have been used in a generic and descriptive sense only and not for purposes of limitation, the scope of the invention being set forth in the following claims.
This application claims the benefit of and priority to U.S. Provisional Patent Application Ser. No. 61/260,057, filed Nov. 11, 2009, in the U.S. Patent and Trademark Office, and U.S. Provisional Patent Application Ser. No. 61/299,379, filed Jan. 29, 2010, in the U.S. Patent and Trademark Office. This application incorporates the earlier provisional applications by reference in their entirety.
Number | Date | Country | |
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61260057 | Nov 2009 | US | |
61299379 | Jan 2010 | US |