Brushes that have been used in the car wash industry in the last several years (see
In a constant effort to attempt to better the quality of vehicle washing by upgrading the brushes, I have studied the structural requirements to determine what it would take to do that and whether it be practical. After listening to what car-wash owners saw as some shortcomings of standard brushes of the
While experimenting with a brush having a minimum core diameter, I soon discovered that right along with core diameter, the ratio of the number of cloth plies to the core diameter is also very important primarily in the lower ⅓ of the brush. Normally brushes have, in this area, a maximum ratio of material ply/360° to core diameter of 4.0 (ply is the number of pads striking the vehicle as the brush turns one revolution). The next thought was to use as small a core as possible and increase a ratio of material ply/360° to core diameter to see if this theory would work. This was done to yield a ratio of 5 but also as high as 12 the preference being in the range of 8 to 12. To increase this ratio on a larger diameter core would make the brush very expensive and less apt to get into the curves and crevices and clean well. It would also make it harder to control the brush action as it would become prohibitively heavy and could cause vehicle damage after this heavier brush traveled around areas where mirrors or vehicle corners are located and then come crashing back against the vehicle to even cause the brush to bounce against the vehicle. This would contribute to more “cleaning misses” and so would diminish the cleaning action of the standard design of
A vehicle washing brush assembly which includes a cylindrical holder configuration having plural cloth or foam pads secured thereto and configured to be centrifugally extended radially outwardly from the holder and into surface treating engagement with a vehicle surface. A first longitudinal length of the holder has a selected number of separate cloth or foams pads oriented around the perimeter of said holder so that the ratio of the number of cloth or foam pads per 360° of the holder to the outer diameter of the holder is in the range of 5 to 12, preferably in the range of 8 to 12. A second longitudinal length of said holder having a selected number of separate cloth or foam pads oriented around the perimeter of the holder so that the ratio of the number cloth or foam pads per 360° of the holder to the outer diameter of the holder is 6.0 or less.
As shown in
This design, as shown in
With a smaller core and the core being closer to the vehicle there is more mopping action, as shown schematically in
In theory, the reason for the noticeably better cleaning results using the small 5″ core as compared to, for example, a 12″ core, is believed to be the following. If the perimeter of a 12″ core and the perimeter of a 5″ core are assumed to be the same distance from the surface of the vehicle being washed and if both cores had the same number of plies/360°, then the pads in a 12″ core are 2.4 (12/5) times as far apart on the outer periphery as those on the 5″ core. Therefore, while it might be difficult to measure the exact percentage of increase of “drag” or “mopping” action that the pads in a 5″ core have over those in a 12″ core, I believe it is safe to conclude that it is twice as much due to this factor alone.
Also, since the results of testing this smaller core and finding it does hug the vehicle considerably better, with the distance from the perimeter of the core to the vehicle less than that of a 12″ core, is another reason to know that there is more “drag” and more “mopping” action due to this condition.
Considering the aforementioned two factors together, I believe that the “drag” or “mopping” action with the 5″ core is three times that of the 12″ core. This same reasoning applies to the number of plies of pads in back of (and radially outwardly oriented) and pushing against the pad that is washing the vehicle at any given instant. That is, the extra “push” that each washing pad receives from those radially outwardly thereof, which has to be three times that which is occurring in a 12″ core, contributes greatly to the smaller core brush cleaning much better (and due to its “hugging” the vehicle) than the 12″ core brush.
This is a continuation-in-part of U.S. Ser. No. 09/873,758, filed Jun. 4, 2001 now abandoned.
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1298096 | Roberts | Mar 1919 | A |
2637054 | Holmes | May 1953 | A |
3345666 | Hanna et al. | Oct 1967 | A |
3747151 | Takeuchi | Jul 1973 | A |
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6733861 | Belanger | May 2004 | B1 |
Number | Date | Country | |
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20030079308 A1 | May 2003 | US |
Number | Date | Country | |
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Parent | 09873758 | Jun 2001 | US |
Child | 10310011 | US |