Communications: electrical – Land vehicle alarms or indicators – Internal alarm or indicator responsive to a condition of the...
Reexamination Certificate
1999-06-11
2001-09-18
Pope, Daryl (Department: 2736)
Communications: electrical
Land vehicle alarms or indicators
Internal alarm or indicator responsive to a condition of the...
C340S445000, C340S447000, C073S146500
Reexamination Certificate
active
06292095
ABSTRACT:
TECHNICAL FIELD
This invention relates to pressure and temperature measurements and more particularly to systems for measuring giant off-the-road tire temperatures and pressures under first sets of conditions and predicting inflation pressure changes required to achieve targeted operating pressures under second sets of conditions.
BACKGROUND OF THE INVENTION
Giant off-the-road tires, particularly those employed by earth moving and mining ore vehicles, are subjected to very heavy loads that make them susceptible to premature failure unless proper inflation pressures are maintained. For example,
FIG. 1
shows a mining ore truck
10
, which can weigh up to 550 tons when loaded and carries its heavy loads on only two axles. A front axle
12
has two single tires
14
mounted thereon and a rear axle
16
has two dual tires
18
(only one “dual” shown) mounted thereon, resulting in loads of about 50 tons per tire. A typical tire is inflated through a conventional valve stem
20
(only two shown) to an operating pressure ranging from about 85 to 185 pounds per square inch of gauge pressure (“psig”) and, when operating, may have an operating temperature ranging from about 100 to 255 degrees Fahrenheit (“° F.”). If the tire pressure is too high, a worst case failure mode (explosion) may occur. However, if the tire pressure is too low, the excess heat generated may cause separation of some of the 18 to 22 tire layers after only 300 hours of operation, whereas such tires normally have at least a 1,000 hour operating life. Giant off-the-road tires cost about $25,000 to $30,000 each, and vehicle downtime costs at least about $500 per hour. Clearly, maintaining proper tire operating pressure is an economic imperative.
Unfortunately, conventional tire pressure measurement methods require allowing the tires to cool for about eight hours before an accurate tire pressure measurement and inflation pressure adjustment can be made. The resulting costly downtime often leads to infrequent tire pressure measurements. To make matters worse, air compressors often add water vapor and compression heating of the inflation air, causing errors between the measured and operating air pressures in the tires. Moreover, off-the-road vehicle operators often add fluids to tires to inhibit rim rust and scale that otherwise makes tire removal difficult. Also, new tires are stored outdoors where they can collect rainwater, some of which inevitably remains in the tire when it is installed on a vehicle. Unfortunately, such fluids have vapor pressures that contribute to pressure measurement errors. Tires operating under these conditions are referred to as “wet” tires. Finally, many off-the-road vehicles operate in cold climates but are maintained in heated facilities, further complicating the tire inflation pressure problem. Unfortunately, conventional gas law equations do not provide solutions to these problems.
There are previously known apparatus and methods for solving some of the above-described problems. In particular, U.S. Pat. No. 5,452,608 for PRESSURE AND TEMPERATURE MONITORING VEHICLE TIRE PROBE WITH RIM ANCHOR MOUNTING describes a tire rim mounted sensor probe and conductor terminal apparatus for sensing the air pressure and temperature inside a tire. When the vehicle stops, a conventional electronic measuring device is electrically connected to the conductor terminal to convert the sensor probe data into pressure and temperature measurements. Unfortunately, the sensor probe is separately mounted through a hole in the rim, a disadvantage that weakens the rim and requires a relatively expensive field retrofit to every rim. If a new rim is required, it similarly has to be retrofitted, adding to the downtime of vehicle. Of course, a tire cool down period may be required to obtain usable readings.
U.S. Pat. No. 5,335,540 for TIRE MONITORING APPARATUS AND METHOD describes a tire pressure and temperature sensing apparatus that employs radio telemetry to continuously monitor tire pressure and temperature while the vehicle is operating. However, as in the above-described patent, the pressure and temperature sensing probe is separately mounted to the rim, which has many of the above-described disadvantages. Moreover, every vehicle carries a telemeter receiver by which the vehicle driver monitors the tire operating pressures and temperatures.
There are many other patents describing tire pressure and temperature monitoring apparatuses and methods. Some describe sensors embedded in the tires, others describe wheel hub mounted slip rings for conducting sensor data to a vehicle data processor, and still others describe complex systems for inflating and deflating tires while the vehicle is operating. However, there is no known prior method or apparatus that accounts for pressure measurement errors caused by air compressors, water vapor pressure, and temperature changes.
What is needed, therefore, is an accurate tire pressure measuring system that does not require a cool down time, does not require expensive retrofitting or weakening of tire rims, accounts for sources of measurement errors, is readily transferred among tires and vehicles, and is usable on a wide variety of tire and wheel combinations.
SUMMARY OF THE INVENTION
An object of this invention is, therefore, to provide an apparatus and a method for measuring tire pressure and predicting inflation pressure changes that account for many sources of measurement errors without requiring a tire cool down period.
Another object of this invention is to provide an apparatus and a method for measuring tire pressure and temperature without resorting to expensive retrofitting or weakening of tire rims.
A further object of this invention is to provide a tire pressure and temperature measuring apparatus and a method that is readily transferable among tires and vehicles and is usable with a wide variety of tire and rim combinations.
A first embodiment of a tire pressure and temperature measurement system of this invention adapts a Y-block to an existing valve stem. One branch of the Y-block accepts a conventional valve core and the other branch of the Y-block accepts a flexible tubular temperature sensor that leads “down the throat” of the existing valve stem and into the interior of the tire. Making a measurement entails stopping the vehicle and, without a cool down period, attaching a pressure sensor to the conventional valve stem and attaching a hand-held processor to the pressure and temperature sensors. The hand-held processor reads the current tire pressure and temperature and executes a program that accounts for measured and target temperatures, vapor pressures, and gas compressibility and indicates how much pressure to add or subtract to the tire to achieve an accurate final tire operating pressure.
A second embodiment of the tire pressure and temperature measurement system employs a modified Y-block that adapts to an existing rim, angle adaptor, and extension hose of an inside dual tire. The modified Y-block receives an elongated temperature sensor with sufficient flexibility for feeding down the throat of the extension hose, bending around the corner of the angle adaptor, and protruding into the interior of the tire. Making a measurement is carried out as in the first embodiment.
A third embodiment of the tire pressure and temperature measurement system encloses pressure and temperature sensors and a battery powered telemetry transmitter inside a generally oblate protective housing, all of which is simply placed loosely within the interior of a tire when it is mounted to a rim. The telemetry transmitter battery capacity is sufficient for one year of continuous operation, which exceeds the expected tire life. In this embodiment, a telemetry receiver receives pressure and temperature data transmitted from inside the tire and conveys the data to a processor that executes the program described in the first embodiment. The telemetry receiver can be tuned to receive data from multiple tires while the vehicle is moving. Alternatively, the telemetry receiver can be adapted t
Foster James C.
Fuller John C.
Fuller Timothy C.
Jones, III Morris C.
Priday Melvin M.
Fuller Brothers, Inc.
Pope Daryl
Stoel Rives LLP
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