Fluid
power is energy transmitted and controlled by means of a
pressurized fluid, either liquid or gas. The term fluid power
applies to both hydraulics and pneumatics. Hydraulics uses
pressurized liquid, for example, oil or water; pneumatics uses
compressed air or other neutral gases. Fluid power can be
effectively combined with other technologies through the use
of sensors, transducers and microprocessors.
How
fluid power works
Pascal's
Law expresses the central concept of fluid power:
"Pressure exerted by a confined fluid acts undiminished
equally in all directions."
An input
force of 10 pounds (44.8 N) on a 1-square-inch (6.45 cm2)
piston develops a pressure of 10 pounds per square inch (psi)
(68.95 kN/m2 or 68.95 KPa) throughout the
container. This pressure will allow a 10-square-inch piston to
support a 100-pound (444.8 N) weight. The forces are
proportional to the piston areas.
The advantages of
fluid power
Fluid power
systems provide many benefits to users including:
Multiplication
and variation of force-Linear or rotary force can be
multiplied from a fraction of an ounce to several hundred
tons of output.
Easy,
accurate control-You can start, stop, accelerate,
decelerate, reverse or position large forces with great
accuracy. Analog (infinitely variable) and digital
(on/off) control are possible. Instantly reversible
motion-within less than half a revolution-can be
achieved.
Multi-function
control-A single hydraulic pump or air compressor
can provide power and control for numerous machines or
machine functions when combined with fluid power manifolds
and valves.
High
horsepower, low weight ratio-Pneumatic components
are compact and lightweight. You can hold a five
horsepower hydraulic motor in the palm of your hand.
Low speed
torque-Unlike electric motors, air or hydraulic
motors can produce large amounts of torque (twisting
force) while operating at low speeds. Some hydraulic and
air motors can even maintain torque at zero speed without
overheating.
Constant
force or torque-This is a unique fluid power
attribute.
Safety in
hazardous environments-Fluid power can be used in
mines, chemical plants, near explosives and in paint
applications because it is inherently spark-free and can
tolerate high temperatures.
Established standards
and engineering-The fluid power industry has
established design and performance standards for hydraulic
and pneumatic products through NFPA, the National Fluid
Power Association; ANSI, the American National Standards
Institute; and ISO, the International Organization for
Standardization.
Fluid power
applications
Mobile:
Here fluid power is used to transport, excavate and lift
materials as well as control or power mobile equipment.
End use industries include construction, agriculture,
marine and the military. Applications include backhoes,
graders, tractors, truck brakes and suspensions, spreaders
and highway maintenance vehicles.
Industrial:
Here fluid power is used to provide power transmission and
motion control for the machines of industry. End use
industries range from plastics working to paper
production. Applications include metalworking equipment,
controllers, automated manipulators, material handling and
assembly equipment.
Aerospace:
Fluid power is used for both commercial and military
aircraft, spacecraft and related support equipment.
Applications include landing gear, brakes, flight
controls, motor controls and cargo loading equipment.
Fluid power
products
Fluid
power products are sold as individual components or as
systems for the original equipment manufacturing, maintenance,
repair and replacement markets.
A typical fluid
power system includes the following components:
Hydraulic pump
or air compressor, which converts mechanical power to
fluid power.
Cylinder or
motor, which converts fluid power to linear or rotary
mechanical power.
Valves, which
control the direction, pressure and rate of flow.
Filters,
regulators and lubricators, which condition the fluid.
Manifolds,
hose, tube, fittings, couplings, etc., which conduct the
fluid between components.
Sealing
devices, which help contain the fluid.
Accumulators
and reservoirs, which store the fluid.
Instruments
such as pressure switches, gauges, flow meters, sensors
and transducers, which are used to help monitor the
performance of a fluid power system.
Fluid
power is energy transmitted and controlled by means of a
pressurized fluid, either liquid or gas. The term fluid power
applies to both hydraulics and pneumatics. Hydraulics uses
pressurized liquid, for example, oil or water; pneumatics uses
compressed air or other neutral gases. Fluid power can be
effectively combined with other technologies through the use
of sensors, transducers and microprocessors.