Patent Grant
7278631
A portion of the disclosure of this patent document contains material that is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the U.S. Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.
All patents and publications described herein are hereby incorporated by reference in their entireties.
The present invention relates generally to air processing equipment used in residential, commercial, and industrial settings. The present invention relates to a base for an evaporative heat exchanging device used in air or water processing equipment. More specifically, the present invention includes to a base support structure for a bottom supported fill media used in an evaporative heat exchanging device known as a cross flow cooling tower.
It is known in the art to use air handling equipment to cool, heat, moisturize, dry, or otherwise condition or process air for a variety of uses. These uses can include the climate control of the particular space into which people or animals will occupy or the manipulation of air or water used in other industrial processes. One device commonly used in the conditioning of air is the evaporative cooling device, which is also known as a cooling tower. Typically in a cross flow cooling tower, air is drawn through a media over water to create evaporative cooling wherein the cool water is then used in a heating exchanger of another piece of air processing equipment, for example, an air conditioner. In the typical cross flow cooling tower, a flow of air and a flow of water travel in substantially perpendicular paths to one another. The water normally travels down various sheets of plastic through channels or flutes used to enhance the heat exchange between the water and the air. These sheets of, typically PVC, are known in the art as fill media. These can be sheets either supported from the top using a rod assembly or can be bundled fill packs supported off the cold water basins.
For example, U.S. Pat. Nos. 5,227,095, 5,958,306, 6,237,900, 6,460,832, 6,517,058 and 6,715,740 all disclose cooling towers or types of fill media, also known as film sheets or fill packs, used in cooling towers. As a review of these patents shows, most of the consorted effort to improve the cooling towers has been in the redesign of the actual sheets that make up the fill media or in the working portions of the cooling tower which include the water distribution and air circulation systems.
Most of these prior art patents have overlooked the basic support structure used in connection with a bottom supported fill media in a cross flow cooling tower. For example, most of the prior art used wood or metal supports for the structure, or framework, to elevate the fill bundles off of the cold water basins. Normally this is galvanized metal. Additionally, little thought has been given to the proper location of the various components that set down and position the prior art support structures. The prior art structures are normally positioned on the cold water basins often time putting excessive stress on the pan sections due to the weight of the complete fill assembly not being equally distributed across the cold water basin pan sections.
The prior art support structures fail to appreciate a need to vary the height of the fill media off the cold water basins within various cross flow cooling towers. Additionally, the prior art fails to appreciate a need for proper water flow within the cold water basin of the cooling tower. As such, the prior cooling towers have a tendency to develop low spots or “trap” locations in which silt and debris are held and can become stagnant and collect bacteria and other unwanted impurities. When maintenance is performed on these prior art cooling towers, the low spots, or trap locations hold the silt and debris which can adversely affect the ultimate performance of the air handling equipment.
What is needed then is an improved support system for heat and mass transfer devices used in the processing of air. This needed support preferably allows for multiple flow directions of water held in the cold water basin of a cooling tower as well as adjustments in the positioning of the elements that comprise the base in order to properly support the fill media. This needed base is lacking in the art.
Included herein is a support base for a crossflow cooling tower having a bundled fill pack arrangement used as the media for the heat exchange system. The cooling tower, or heat transfer device, comprises a plurality of heat exchanging plates positioned to form the fill media, a moisture collection area positioned under the heat exchanging plates, and a composite base supporting the heat exchanging plates and positioned substantially within the moisture collection area. The base includes a plurality of elongated supports, wherein each support includes a length, an aperture, and a plurality of openings. The aperture traverses the supports substantially parallel to the length while the openings traverse the supports substantially perpendicular to the length. The combination of the aperture and openings allows the flow of moisture and water within the moisture collection area to flow in at least two substantially perpendicular directions within the moisture collection area.
In a preferred embodiment each elongated support further includes a top, sides, a bottom, a first end, and a second end. Indentions are positioned in the top perpendicular to the length and a plurality of cross rails can be positioned in the indentions to support the fill media and connect adjacent supports. Alternately, the cross rails can be positioned on the top of the supports and engage the fill media to vary the vertical positioning of the fill media relative to the supports.
Preferably the openings are positioned in the sides of each support wherein for each given support the openings are aligned to allow a direct pass through of water through these supports. These openings in combination with the aperture of a given support can be described as allowing the moisture to flow in first and second directions where the first and second directions are substantially perpendicular to one another.
The base can further include first and second locating plates wherein the first locating plate is located proximate to the first end of the support and a second locating plate is positioned proximate to the second end of the support. The first and second locating plates can be substantially perpendicular to each support and extend upward in a generally vertical direction from each support. The first and second locating plates are aligned in combination with the supports and the cross rails to substantially position the fill media on the base in a preferred location for the operation of the cooling tower.
In a most preferred embodiment the base, including the supports, cross rails, and locating plates, is composed of composite material. This composite material is preferably a fiber reinforced PolyVinyl Chloride (PVC) or High Density Polyethylene. This composite material is advantageous in that it is cheaper to make than conventional metal bases used in cooling towers. Additionally, the composite material will not corrode or deteriorate when subjected to the high moisture and the water chemistry used in cooling towers. The use of composites will also allow easy variances in the size of the individual bases while allowing for a consistent replication of supports to provide a uniform base under the fill media. The consistent size and dimensions of the supports can be critical especially when the sizes of cooling towers can be several stories high and occupy a footprint space several hundred feet squared.
It is therefore a general object of the present invention to provide a base support structure for an evaporative heat exchanging device.
Another object of the present invention is to provide a base for a cooling tower.
Another object of the present invention is to provide a base for a fill media used in a cooling tower.
Another object of the present invention is to provide a base used to support heat exchanging plates in an evaporative cooling device.
Another object of the present invention is to provide a composite base used in cooling towers.
Another object of the present invention is to provide a base for a cooling tower that can vary the height of the fill media relative to the surrounding framework of the cooling tower.
Another object of the present invention is to provide a base for a cooling tower that allows the flow of fluid in two substantially perpendicular directions within a cooling tower.
Other and further objects, features and advantages of the present invention will be readily apparent to those skilled in the art upon reading of the following disclosure when taken in conjunction with the accompanying drawings.
Referring generally now to
The cooling tower 10 can further include a lower section 20, which can also be described as a subsection 20, in which the water flows for subsequent use in air or industrial processes. A fan 22 and fan housing 24 can also be positioned on, or in, a cooling tower 10 to direct air flow within the cooling tower 10. A composite base 18 supports the heat exchanging plates 14 and is positioned substantially within the moisture collection area 16.
In a preferred embodiment the base 10 includes a plurality of elongated supports 26. Each support 26 includes a length 28, an aperture 30, and a plurality of openings 32. The aperture 30 can be described as being positioned to substantially span the length 28 of the support 26. Alternately, the aperture 30 can be described traversing the supports 26 substantially parallel to the length 28. Alternately, the aperture 30 can be described as establishing a substantially hollow channel-like shape in each support 26. The openings 32 traverse the supports substantially perpendicular to the length 28. The aperture 30 and openings 32 are positioned to allow the flow of moisture in a first direction 34 and a second direction 36 wherein the first and second directions 34 and 36 are substantially perpendicular to one another.
Each support 26 includes a top 38, a first side 40, a second side 42, a first end 44, and a second end 46. A plurality of indentations 48, which can also be described as notches 48, can be spaced along the length 28 of each support 26. The indentations 48 can be substantially perpendicular to the length 28 and can be positioned in the top 38.
The openings 32 are positioned in the sides 40 and 42 of each support 26. Preferably the openings 32 are substantially aligned between the sides 40 and 42 to facilitate a proper movement of fluid through each support 26. This preferred movement of fluid is further enhanced by aligning adjacent supports 26 and the openings 32 of those adjacent supports 26 to facilitate the flow of fluid.
The base 18 further includes a plurality of cross rails 50 wherein the cross rails 50 are positioned on the top 38 of each support 26. The cross rails 50 engage the heat exchange system 12 and more particularly the heat exchanging plates 14 that comprise the fill media 12. In a preferred embodiment, the cross rails 50 are positioned in the indentations 48, or notches 48, and connected adjacent supports 26 to support the fill media 12.
The base 18 further includes first and second locating plates 52 and 54 wherein the first and second locating plates 52 and 54 are positioned proximate to the first end 44 and second end 46, respectively, of each support 26. Preferably the first and second locating plates 52 and 54 are substantially perpendicular to each support 26 and substantially position the heat exchanging system 12 and heat exchanging plates 14 on the base 18. The supports 26 further include grooves 56 on each end 44 and 46 that are shaped to accept one of the locating plates 52 or 54. Alternately, the first and second locating plates 52 and 54 can engage the top 38 of each support 26 to locate the fill media 12.
Each end 44 and 46 can include an outward slope from the top 38 to the bottom 39. This slope of each end 44 and 46 further facilitates the flow of fluid within the cooling tower 10. The supports 26 can include a locating mark 58, which can also be an opening mark 58, used to help properly install the base 18 into a cooling tower 10.
In a most preferred embodiment the base 18 is comprised of composite material which reduces the need for fastening hardware between the heat exchange system 12 and the base 18. Additionally, this design offers a more unified weight distribution of the load over the moisture collection area 16 and more specifically the inventive base 18. This type of composite base 18 is non-corrosive, lightweight and offers a more unified capacity as compared to conventional supports comprised of wood or steel, be it galvanized, stainless or another form. This type of base 18 can be especially useful when used in retrofitting a conventional top supported fill media into a bottom supported fill pack bundle arrangement as is becoming popular in the art. The inventive composite base 18 allows for the fill media to be raised off the bottom structure 19, which can also be described as a slab 19, which normally comprises the bottom portion of a cooling tower 10. This raised elevation further facilitates cleaning and maintenance of the cooling tower 10.
Another feature of the current invention is the lack of fasteners used in the construction of the base 18. Namely, the supports 26, the plurality of cross rails 50, and the first and second locating plates 52 and 54 are designed to engage one another without the aid of conventional fasteners. Preferably these elements of the base 18 include a frictional fit between one another. Alternately, the plurality of cross rails 50 and the first and second locating plates 52 and 54 are simply supported by the supports 26. The supports 26 also facilitate the positioning of the plurality of cross rails 50 and the first and second locating plates 52 and 54 relative to one another.
Various dimensions and heights of the base 18 can be utilized and still stay with the inventive nature of the current invention.
Thus, although there have been described particular embodiments of the present invention of a new and useful Composite Support System For A Fill Media Cooling Tower, it is not intended that such references be construed as limitations upon the scope of this invention except as set forth in the following claims.
This application is a Non-Provisional Utility application which claims benefit of co-pending U.S. Patent Application Ser. No. 60/591,812 filed Jul. 28, 2004, entitled “Composite Support System For A Fill Media Cooling Tower” which is hereby incorporated by reference in its entirety.
| Number | Name | Date | Kind |
|---|---|---|---|
| 2342952 | Mart | Feb 1944 | A |
| 4202847 | Ernst et al. | May 1980 | A |
| 4591462 | Peterson | May 1986 | A |
| 4678615 | Stambolov et al. | Jul 1987 | A |
| 4803018 | Lefevre | Feb 1989 | A |
| 5112371 | Tippmann | May 1992 | A |
| 5227095 | Curtis | Jul 1993 | A |
| 5236625 | Bardo et al. | Aug 1993 | A |
| 5958306 | Curtis | Sep 1999 | A |
| 6237900 | Drew | May 2001 | B1 |
| 6460832 | Mockry | Oct 2002 | B1 |
| 6517058 | Engh | Feb 2003 | B1 |
| 6715740 | Engh | Apr 2004 | B2 |
| 20050016945 | Yang et al. | Jan 2005 | A1 |
| Number | Date | Country | |
|---|---|---|---|
| 60591812 | Jul 2004 | US |
