ABSTRACT
Improve vehicle
safety through technology: that is the objective achieved by the PIRELLI SAFETY
WHEEL SYSTEM,and AIRGO SYSTEM a new development patented by Pirelli and Airgo
to reduce risks derived from tyre punctures or loss of inflation pressure.This resulted in a new concept for tyres for improved
safety ,comfort,fuel efficiency and the tyre which can be more flexible for
drivers.
INTRODUCTION
According to AAA, about 80 percent
of the cars on the road are driving with one or more tires under inflated. Tires lose air
through normal driving (especially after hitting pot holes or curbs),
permeation and seasonal changes in temperature. They can lose one or two psi
(pounds per square inch) each month in the winter and even more in the summer.
And, you can't tell if they're properly inflated just by looking at them. You
have to use a tire-pressure gauge. Not only is under
inflation bad for your tires, but it's also bad for your gas mileage, affects
the way your car handles and is generally unsafe. When tires are under inflated,
the tread wears more quickly. According to Goodyear, this equates to 15 percent
fewer miles you can drive on them for every 20 percent that they're under inflated.
Under inflated tires also overheat more quickly than properly inflated tires,
which cause more tire damage. The faded areas below indicate areas of excessive
tread wear.
Because tires
are flexible, they flatten at the bottom when they roll. This contact patch
rebounds to its original shape once it is no longer in contact with the ground.
This rebound creates a wave of motion along with some friction. When there is
less air in the tire, that wave is larger and the friction created is greater
-- and friction creates heat. If enough heat is generated, the rubber that
holds the tire's cords together begin to melt and the tire fails. See How Tires Work to learn more. Because of the
extra resistance an under inflated tire has when it rolls, your car's engine has to work harder. AAA statistics
show that tires that are under inflated by as little as 2 psi reduce fuel
efficiency by 10 percent. Over a year of driving, that can amount to several
hundred dollars in extra gas purchases.
SELF-INFLATING SYSTEMS
Tire-inflation
systems have three general goals:
- Detect when the air pressure in a particular tire has dropped - This means they have to constantly (or intermittently) monitor the air pressure in each tire.
- Notify the driver of the problem
- Inflate that tire back to the proper level - This means there has to be an air supply as well as a check valve that opens only when needed.
PARTS OF SELF-INFLATING SYSTEM
While the available tire inflation systems vary in design, they
share some common elements.
- They all use some type of valve to isolate individual tires to prevent airflow from all tires when one is being checked or inflated.
- They have a method for sensing the tire pressures. This is addressed in most cases with central sensors that relay information to an electronic control unit and then to the driver.
- They have an air source, which is usually an existing onboard source such as braking or pneumatic systems. When using an existing system, however, they have to ensure that they don't jeopardize its original function. For this reason, there are safety checks to ensure that there is enough air pressure for the source's primary use before pulling air for tire inflation.
- There has to be a way to get the air from the air source to the tires, which is usually through the axle. Systems either use a sealed-hub axle with a hose from the hub to the tire valve or else they run tubes through the axle with the axle acting as a conduit.
- There has to be a pressure relief vent to vent air from the tire without risking
It is a lightweight valve
incorporating a number of selectable deflation pressure settings. To operate,
the valve is screwed onto the existing tyre valve; the tyre deflates to the
required pressure and the valve then shuts off once the pressure is achieved.
The deflation valve is removed and stowed in one of the several stowage racks
or boxes available.
For use on vehicles of all sizes
with air compressor supplied brakes. The diverter valve is fitted between the
compressor and the existing air system governor/air dryer and diverts the whole
output of the compressor for tyre inflation (or air tool use) when the hose is
connected. Automatically reverts to normal brake function when the hose is
disconnected. The diverter enables quicker inflation to normal air system
pressures and allows inflation above normal brake air system pressures. One man
operation with hand held gauge/control unit.
All of the tyre
inflator products use Tyre Inflator Hose Assembly. The Hose can be used with:
· The Tyre
· The Self-Sealing Tyre
· The Electric High Air Pressure
System.
CENTRAL TIRE INFLATION SYSTEM (CTIS)
The idea behind
the CTIS is to provide control over the air pressure in each tire as a way to
improve performance on different surfaces. For example, lowering the air
pressure in a tire creates a larger area of contact between the tire and the
ground and makes driving on softer ground much easier. It also does less damage
to the surface. This is important on work sites and in agricultural fields. By
giving the driver direct control over the air pressure in each tire,
maneuverability is greatly improved. Another function of the CTIS is to
maintain pressure in the tires if there is a slow leak or puncture. In this
case, the system controls inflation automatically based on the selected
pressure the driver has set. There are two main manufacturers of the CTIS:
U.S.-based Dana Corporation and France-based Syegon (a division of GIAT). Dana
Corporation has two versions, the CTIS for military use (developed by PSI) and
the Tire Pressure Control System (TPCS) for commercial, heavy machinery use. In
the next section, we'll take a look at the inner workings of a basic CTIS setup.
CTIS: INSIDE
A wheel valve is located at each wheel
end. For dual wheels, the valves are typically connected only to the outer
wheel so the pressure between the two tires can be balanced. Part of the wheel
valve's job is to isolate the tire from the system when it's not in use in order
to let the pressure off of the seal and extend its life. The wheel valve also
enables on-demand inflation and deflation of the tires. An electronic control unit (ECU) mounted
behind the passenger seat is the brain of the system. It processes driver
commands, monitors all signals throughout the system and tells the system to
check tire pressures every 10 minutes to make sure the selected pressure is
being maintained. The ECU sends commands to the pneumatic control unit, which directly controls the wheel valves
and air system. The pneumatic control unit also contains a sensor that
transmits tire-pressure readings to the ECU. An operator control panel allows the driver to select tire-pressure
modes to match current conditions. This dash-mounted panel displays current
tire pressures, selected modes and system status. When the driver selects a tyre-pressure
setting, signals from the control panel is send to the electronic control unit then
to the pneumatic control unit and to the wheel valves. When vehicles are moving
faster (like on a highway), tire pressure should be higher to prevent tire
damage. The CTIS includes a speed
sensor that sends vehicle speed information to the electronic control
unit. If the vehicle continues moving at a higher speed for a set period of
time, the system automatically inflates the tires to an appropriate pressure
for that speed. This type of system uses air from the same compressor that
supplies air to the brakes. A pressure
switch makes sure the brake system gets priority, preventing the CTIS
from taking air from the supply tank until the brake system is fully charged.
A CLOSER LOOK
The electronic control unit tells the pneumatic control unit to
check current pressure and either inflate or deflate the tire to the pressure
selected by the driver. If the system determines that inflation is needed, it
first checks to make sure that brake pressure reserves are where they should
be; if they are, it applies a slight pressure to the wheel valve to allow
inflation. If the tires are over inflated, the system applies a slight vacuum
to the wheel valve. When the pneumatic control unit reads that the appropriate
pressure is reached, the valve closes.
TIRE MAINTENANCE
SYSTEM (TMS)
Dana Corporation's Tire
Maintenance System is a "smart" system for tractor trailers that
monitors tire pressure and inflates tires as necessary to keep pressure at the
right level. It uses air from the trailer's brake supply tank to inflate the
tires.
The system has three main
components:
- The tire hose assembly provides the air route to inflate the tire and has check valves so that the air lines and seals do not have to be pressurized when the system is not checking or inflating the tires. This cuts down on wear and tear on the seals.
- The rotary joint is comprised of air and oil seals and bearings and connects the air hose from the non-rotating axle to the rotating hubcap. Its air seals prevent leakage, and the oil seal prevents contamination. The rotary hub also has a vent to release air pressure in the hubcap.
- The manifold houses the pressure protection valve, which makes sure the system doesn't pull air if the brakes' air supply is below 80 psi. It also houses an inlet filter to keep the air clean, a pressure sensor to measure tire pressures and solenoids that control airflow to the tires.
Like the CTIS,
this system also has an electronic control unit that runs the entire
system. It performs checks to make sure the system is operational, notifies the
driver via a warning light on the trailer (visible through the rear-view
mirror) if a tire's pressure drops more than 10 percent below its normal
pressure and performs system diagnostics. The
system performs an initial pressure check and adds air to any tire that needs
it. The check valves in each tire hose ensure that the other tires don't lose
pressure while one tire is being inflated. After an initial pressure check, the
system depressurizes to relieve pressure from the seals. Every 10 minutes, the
system pressurizes the lines and rechecks tire pressures. The system measures
tire pressure using a series of air pulses in the air lines. If the target
pressure in the line is not reached after a certain amount of time, the system
begins inflating the tire(s) until the correct pressure is reached.
AIRGO
SYSTEM
The AIRGO system is a constant monitoring system that uses a series
of check valves to detect a loss
in air pressure.
Unlike some
of the other systems, AIRGO doesn't use air from the vehicle's braking system.
When air seepage has occurred at any of various points in the system (1), the
system draws air (2) from the vehicle's pneumatic
system (not shown) and sends it by way of the vehicle's axles (3) --
through the axles themselves if they're pressurized or by way of tubing if
they're not -- through the hubcap assembly (4) and into the tire requiring
inflation. A warning light,
located on the trailer but visible through the driver's rearview mirror,
illuminates when the system has inflated a tire since this is a constant monitoring system, which puts
a lot of wear and tear on the seals, AIRGO uses carbon-graphite and
case-hardened steel for its seals rather than rubber.
1. When a tire loses pressure, due
to a puncture or other seepage, a series of check valves automatically detects
it.
2. The System then immediately draws air from the vehicle’s pneumatic
system and directs it to each tire requiring air, even as the truck is moving.
3. The air pressure is delivered via the trailer’s hollow axle housing
(or pressure tubing for non-pressurized applications.)
4. The air then goes through the hub assembly and into the tires. It
is completely isolated from the brake system
When a tire is damaged, your driver and cargo are at risk. The NHTSA
estimates that over 10,000 injuries could be prevented per year if all vehicles
were equipped with tire pressure monitoring systems. With the AIRGO® System,
you can ensure the safety of your driver and reduce the risk of highway
accidents, which often can lead to personal injury, property damage and
expensive litigation. Protect driver, cargo and other road traffic from
surprise blowouts (less insurance claims).
MERITOR TIRE
INFLATION SYSTEM (MTIS)
The MTIS is
designed for use on tractor trailers. It uses compressed air from the trailer
to inflate any tire that falls below its appropriate pressure. Air from the
existing trailer air supply is routed to a control box and then into each axle.
The air lines run through the axles to carry air through a rotary union
assembly at the spindle end in order to distribute air to each tire. If there
is significant air-pressure loss, an indicator light informs the driver.
WHEEL-END ASSEMBLY
The wheel-end assembly includes
a flexible hose with check
valves. The check valves only
allow air to flow into each
tire; this ensures that while one tire is being inflated, the other tires don't
lose air pressure..
This assembly
also incorporates a stator (a non-rotating part) inside the axle spindle and a flow-through tee that is attached to
the hubcap. The flow-through tee has a dynamic seal to allow rotation while
preventing pressure loss when pressurized air passes from the axle to the hub,
which occurs through a tube that runs from the stator into the tee. In the
hubcap assembly, there is a vent
to make sure pressure does not build up in the wheel end. A deflector shield keeps contaminants
such as dirt and water from entering the wheel end. For axles with hollow
spindles, a press plug seals the
pressurized axle interior from the wheel end in order to secure the stator.
CONTROLS
The system
control module has a shut-off valve
to stop air from being sent to the system, as well as a filter to remove moisture and contaminants. The petcock releases system pressure so
maintenance can be performed. Like some of the other systems that use onboard
air supplies, this system has a pressure
protection valve so that it won't pull air if the air supply is below 80
psi.
CONTROL SYSTEM
A system pressure adjustment knob allows
for adjustments to the overall system air pressure. A flow-sensing switch activates the indicator light to let the driver knows if a significant amount of
air is being pumped into a tire, which would indicate a potential puncture.
OTHER SYSTEMS
Pressure
Guard: The Pressure Guard system routes air from
the trailer's air supply through the axles, to the hubs and then to the tire
valves.
TIREMAAX: The TIREMAAX system uses the trailer's air supply to maintain a
specific level of tire inflation. When it detects low tire pressure, it signals
the operator and then directs air from the trailer air tank to the tire needing
inflation.
THE FUTURE OF
SELF-INFLATING TIRES
Michelin is working with several other companies to develop an active
pressure-management system called TIPM,
due to be available sometime in 2005. This system has a compressor that
automatically adjusts the pressure in each tire while the vehicle is in
operation to compensate for leaks and slow-leak punctures. The driver will be
able to adjust the pressure depending on the desired driving mode: comfort,
sporty, all-terrain or over-obstacle. There are at least two other systems in
the early development stages that are oriented toward the consumer market --
the EnTire system and the
Cycloid Air Pump system. The EnTire Self-Inflating Tire system uses a
valve that pulls in air from the atmosphere. It then pumps the air into the
under-inflated tire using a peristaltic-pump action. The goal is to constantly
maintain a specific pressure.
CONCLUSION
Self inflating tyres will become very common
in the near future. It increases the safety and the fuel efficiency of the
vehicle.The development of self inflating tyres increases the safety, comfort
and other performances of vehicle.The driver will be able to adjust the
pressure depending upon the desire driving mode:comfort,sporty over obstacle.so
“self inflating tyres are the future tyres”
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