Pavement markings wetting device and method

Information

  • Patent Grant
  • 6619880
  • Patent Number
    6,619,880
  • Date Filed
    Monday, June 24, 2002
    22 years ago
  • Date Issued
    Tuesday, September 16, 2003
    21 years ago
Abstract
A pavement marking wetting device provides consistent, even wetting to pavement markings for use in taking retroreflectivity measurements. The wetting device includes a nozzle which is connected to the tank of a water truck for fast, efficient wetting. The nozzle includes an air gap which creates a balancing of air pressure, thereby insuring consistent, even dispersion.
Description




FIELD OF THE INVENTION




The invention herein pertains to measurement of the retroreflectivity of pavement markings and particularly pertains to a device for attachment to a water truck for consistent wetting of linear pavement markings.




DESCRIPTION OF THE PRIOR ART AND OBJECTIVES OF THE INVENTION




With the increased use of roads, highways and the like in recent years pavement markings have become increasingly important in preventing accidents and saving lives. Markings are made of various materials and have varying degrees of retroreflectivity which is of great importance in dark and adverse weather conditions. Vehicles equipped with retroreflectivity measuring devices are used to collect retroreflective data from the markings to evaluate their performance. Certain tests require wetting pavement markings before retroreflectivity readings can be taken. This process can be done using a handheld retroreflectometer and a bucket of water to flood the pavement marking. The allotted time must pass before placing the handheld retroreflectometer on the pavement marking to take a retroreflectivity reading. Once the reading is taken, a distance must be covered on foot before repeating this process. This process is time consuming and increases the chances of undue personnel risk for collecting data over long distances.




Thus, there exists a need for a uniform method of applying at highway speeds, a water layer. In recognition and potential safety hazards prior art devices and methods, the present invention was conceived and one of its objectives is to provide a device for evenly applying water to pavement markings for retroreflectivity measurement and data collection purposes, all done at highway speeds.




It is also an objective of the present invention to use a water distribution nozzle in conjunction with a mobile retroreflectometer to increase data collection compared to collection of data with a handheld retroreflectometer.




It is a further objective of the present invention to provide a method of water flow and exact distribution along the pavement markings without significant water contacting the roadway outside the designed area.




It is still another objective of the present invention to provide a water nozzle which will allow even dispersion of water from a moving vehicle as it travels along an extended length of pavement markings.




It is yet another objective of the present invention to provide a water dispersion nozzle which can be easily connected to a conventional water truck for use in retroreflectivity measurements.




It is yet another objective of the present invention to provide a method which will ensure a consistent wetting of pavement markings over miles of highway at highway speeds.




It is yet another objective of the present invention to provide a nozzle for wetting pavement markings which is easy to use and does not require extensive training.




Various other objectives and advantages of the present invention will become apparent to those skilled in the art as a more detailed description is set forth below.




SUMMARY OF THE INVENTION




The aforesaid and other objectives are realized by providing a wetting device which can be attached to a standard water truck in a quick and easy manner. The device includes a nozzle having a water conduit which can be attached to a supply pipe and outlet valve for gravity feeding water from the tank of a water truck. The nozzle includes a manifold which receives water from the water conduit and distributes it through a slot therein. Water passing through the slot falls downwardly through a first chamber in the nozzle housing and is dispensed onto the marking below as the truck travels along the highway. Air passing into the nozzle from below is directed across the lower end of a divider and into the second chamber where it exits through an air gap in the back of the nozzle housing. This balancing of air pressure thus asserts in an even dispersion of water onto the markings.




Following the water tank truck is a retroreflectivity measurement vehicle at a specified number of seconds behind. Both vehicles can operate effectively traveling at moderate highway speeds and can thus cover great lengths of highway in a relatively short time to achieve uniform retroreflectivity data collection.











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

illustrates a schematic top view of water application and retroreflecting measurements along a highway edge line marking;





FIG. 2

shows the rear view of the water tank truck as seen in

FIG. 1

;





FIG. 3

demonstrates an enlarged front view of the water nozzle herein;





FIG. 4

pictures a rear view of the nozzle seen in

FIG. 3

; and





FIG. 5

depicts a cross-sectional view of the nozzle along lines


5





5


of FIG.


3


.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT AND OPERATION OF THE INVENTION




For a better understanding of the invention and its operation, turning now to the drawings,

FIG. 1

illustrates water tank truck


10


traveling along two lane highway


11


in an easternly direction (left to right in FIG.


1


). Highway


11


includes edge line markings


12


,


12


′ which are conventional retroreflective edge markings to assist drivers in maintaining their vehicles on highway


11


, particularly at night and during rainy and other adverse weather conditions when visibility is poor. Markings


12


are approximately four inches (10.16 cm) in width and have a height of approximately one-eighth inch (0.33 cm) and are formed from a retroreflective composition. As water tank truck


10


moves along highway


11


, preferred nozzle


20


disperses water


15


to thoroughly cover marking


12


while traveling at moderate highway speeds. Water tank truck


10


is followed by conventional retroreflectivity measurement vehicle


40


, traveling at the same speed as the water tank truck


10


with a specified lag time. Vehicle


40


measures the retroreflectivity of markings


12


for use in determining the effectiveness of markings


12


under wet conditions for comparison purposes.




As shown in

FIG. 2

, water tank truck


10


includes water tank


16


for containing water and outlet valve


17


for releasing water into nozzle supply pipe


18


for preferred nozzle


20


. Thus, by opening adjustable valve


17


a desired amount of water from tank


16


drains by gravity through supply pipe


18


and into nozzle


20


for dispersing purposes. The flow rate through nozzle


20


can thus be regulated by valve


17


.




In

FIG. 3

a front elevational view of nozzle


20


is shown with water conduit


21


joined to manifold


22


. Water conduit


21


is in turn joined to supply pipe


18


as seen in FIG.


2


. Conduit


21


consists of preferably a conventional aluminum pipe having a two inch (5.08 cm) od. Manifold


22


likewise consists of a two inch (5.08 cm) od aluminum pipe having a length of approximately twenty-four inches (60.96 cm) and is connected to conduit


21


by conventional means such as heliarc welding.




In

FIG. 5

, triangularly shaped nozzle


20


is seen with manifold


22


shown in cross section with a 0.500 inch (1.27 cm) wide slot


23


which extends the entire width of manifold


22


to allow water


15


to flow therethrough into first chamber


25


of nozzle


20


. Water passing through first chamber


25


exits along the bottom opening


19


of housing


24


.




To improve the evenness and dispersion of water


15


along marking


12


, air slot


28


is positioned in air chamber


26


of housing


24


as seen in

FIGS. 4 and 5

. Air gap


28


extends approximately the width of housing


24


and allows air within second chamber


26


to exit therefrom as seen in dashed line arrows in FIG.


5


. Balancing the air pressure between first chamber


25


and second chamber


26


improves the dispersion of water to a defined area. Divider


29


which is attached to manifold


22


also extends the entire width of housing


24


and separates first chamber


25


from second chamber


26


while lower edge


30


of divider


29


defines passageway


27


therebetween. Passageway


27


allows fluid flow between first chamber


25


and second chamber


26


. Divider


29


extends downwardly from manifold


22


approximately seven inches (17.78 cm).




To prevent harmful impact to housing


24


as when traveling over uneven roads or the like, the front of housing


24


is formed from upper aluminum plate


36


approximately one-quarter inch thick (0.635 cm) and is attached to manifold


22


and extends downwardly therefrom approximately four and one-half inches (11.43 cm). Aluminum plate


36


as seen in

FIG. 3

is affixed by screws or rivets to rubber sheeting


31


therealong which is a conventional one-quarter inch (0.635 cm) flexible rubber sheet. To the bottom edge of sheet


31


a thin, one-eight inch (0.32 cm) flexible rubber flange


32


is attached, also by rivets, screws or other conventional fasteners. Flange


32


is likewise fastened to the back and sides of housing


24


as shown in

FIGS. 4 and 5

to form flexible skirt


33


surrounding bottom nozzle opening


19


to soften impacts that may be encountered on rough, uneven roads. Thus, should an uneven section of highway be encountered, skirt


33


which is approximately three and one-half inches (8.89 cm) in height will bend and flex to prevent rigid housing


24


from experiencing damage.




The preferred method of wetting pavement markings is illustrated in

FIGS. 1 and 2

whereby water from tank


16


of water tank truck


10


is gravity delivered through outlet valve


17


, through supply pipe


18


, through water conduit


21


and into manifold


22


of nozzle


20


while water tank truck


10


moves at moderate highway speeds along highway


11


with nozzle


20


positioned about two inches (5.08 cm) thereabove. Water


15


is thus directed from tank


16


to first chamber


25


of nozzle


20


where it exits housing


24


through bottom opening


19


onto markings


12


. Air flows, for example from first chamber


25


to second chamber


26


and exits housing


24


through air gap


28


balancing the air pressure between first chamber


25


and second chamber


26


thereby evenly dispersing water


15


along markings


12


. Mobile retroreflectivity measurement vehicle


40


as shown in

FIG. 1

follows water truck


10


and collects retroreflectivity data as it lags water truck


10


a specified number of seconds. The data collected can thereafter be analyzed and the consistency, retroreflectivity and other characteristics of markings


12


can be determined and compared to other markings types and compositions.




The illustrations and examples provided herein are for explanatory purposes and are not intended to limit the scope of the appended claims.



Claims
  • 1. A nozzle for attachment to a supply pipe of a vehicle for use in spraying highway markers as the vehicle moves along the highway comprising: a housing, a divider, said divider positioned within said housing to separate said housing into a first and a second chamber, said housing defining an open bottom to allow liquid from said first chamber to exit directly therethrough, said first chamber for dispensing liquid onto the highway markers and said second chamber to allow air flow from said housing, a water conduit, said water conduit for connection to the supply pipe and in fluid communication with said first chamber, whereby water from said water conduit can pass through said first chamber and exit said housing onto a highway marker.
  • 2. The nozzle of claim 1 wherein said housing defines an air gap, said air gap in communication with said second chamber.
  • 3. The nozzle of claim 1 wherein said housing comprises a flexible skirt, said skirt attached along the bottom of said housing.
  • 4. The nozzle of claim 1 further comprising a manifold, said manifold attached to said water conduit for receiving water therefrom.
  • 5. The nozzle of claim 4 wherein said manifold is positioned within said first chamber.
  • 6. The nozzle of claim 4 wherein said manifold defines a slot to allow water within said manifold to exit into said first chamber.
  • 7. The nozzle of claim 1 wherein said divider defines an air passageway, said passageway positioned between said first and said second chambers.
  • 8. The nozzle of claim 1 wherein said housing has a triangular shape in cross section.
  • 9. A device for wetting pavement markings attached to a vehicle comprising: a water tank, said tank affixed to said vehicle, a supply pipe, a nozzle, said supply pipe affixed to said tank and said nozzle, said nozzle comprising a housing, said housing defining an opening along its bottom, a divider, said divider positioned within said housing, said divider separating said housing into a first chamber and a second chamber whereby water from said tank is delivered to said first chamber for distribution directly through said housing bottom opening onto pavement markings below.
  • 10. The device of claim 9 wherein said housing defines an air gap, said air gap in communication with said second chamber.
  • 11. The device of claim 9 further comprising a flexible skirt, said skirt affixed to said housing along the bottom thereof.
  • 12. The device of claim 9 further comprising a water conduit, said water conduit in fluid communication with said first chamber, said water conduit attached to said supply pipe.
  • 13. A method of wetting pavement markings using a nozzle attached to a vehicle water tank, said nozzle having a housing with an open bottom and separated into first and second chambers, said first chamber in direct fluid communication with the open bottom comprising the steps of:a) directing water from the tank to the first chamber; b) allowing air flow through the second chamber to improve the water flow; and c) dispensing water from the first chamber directly through the open bottom onto a pavement marking below.
  • 14. The method of claim 13 wherein directing the water comprises the step of directing the water using gravity.
  • 15. The method of claim 13 wherein allowing air flow through the second chamber comprises the step of allowing air to flow over a divider positioned between the first and second chambers.
  • 16. The method of claim 13 further comprising the step of driving the vehicle along the highway while directing water from the tank to the first nozzle chamber.
  • 17. The method of claim 13 further comprising the step of measuring the retroreflectivity of the wetted marking.
US Referenced Citations (3)
Number Name Date Kind
4376007 Eigenmann Mar 1983 A
5169262 Wilson et al. Dec 1992 A
6240983 Beldham et al. Jun 2001 B1