basic principle of bourdon tube pressure gauge
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Basic Principle of Bourdon tube pressure gauge:
when an elastic transducer ( bourdon tube in this case ) is subjected to a pressure, it defects. This
deflection is proportional to the applied pressure when calibrated.
Description of Bourdon tube Pressure Gauge:
The main parts of this instruments are as follows:
An elastic transducer, that is bourdon tube which is fixed and open at one end to receive the
pressure which is to be measured. The other end of the bourdon tube is free and closed.
The cross-section of the bourdon tube is eliptical. The bourdon tube is in a bent form to look like
a circular arc. To the free end of the bourdon tube is attached an adjustable link, which is inturn
connected to a sector and pinion as shown in diagram. To the shaft of the pinion is connected apointer which sweeps over a pressure calibrated scale.
Operation of Bourdon tube:
the pressure to be measured is connected to the fixed open end of the bourdon tube. The appilied
pressure acts on the inner walls of the bourdon tube. Due to the appilied pressure, the bourdon
tube tends to change in cross section from ellipitcal to circular. This tends to straighten the
bourdon tube causing a displacement of the free end of the bourdon tube.
This displacement of the free closed end of the bourdon tube is proportional to the applied
pressure. As the free end of the bourdon tube is connected to a link
section
pinionarrangement, the displacement is amplified and converted to a rotary motion of the pinion.
As the pinion rotates, it makes the pointer to assume a new posistion on a pressure calibrated
scale to indicate the appilied pressure directly. As the pressure in the case containing the bourdon
tube is usually atmospheric, the pointer indicates gauge pressure.
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Applications of Bourdon Tube pressure gauge:
They are used to measure medium to very high pressures.
Advantages of Bourdon tube pressure gauge:
These Bourdon tube pressure gauges give accurate results.
Bourdon tube cost low.
Bourdon tube are simple in construction.
They can be modified to give electrical outputs.
They are safe even for high pressure measurement.
Accuracy is high especially at high pressures.
Limitations of bourdon tube pressure gauge:
they respond slowly to changs in pressure
they are subjected to hysterisis.
They are sensitive to shocks and vibrations.
Ampilification is a must as the displacement of the free end of the bourdon tube is low.
It cannot be used for precision measurement.
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Overview
The Bourdon Tube is a nonliquid pressure measurement device. It is widely used in applications
where inexpensive static pressure measurements are needed.
A typical Bourdon tube contains a curved tube that is open to external pressure input on one end
and is coupled mechanically to an indicating needle on the other end, as shown schematically
below.
Typical Bourdon Tube Pressure Gages
Internal linkages have been simplified.
The external pressure is guided into the tube and causes it to flex, resulting in a change in
curvature of the tube. These curvature changes are linked to the dial indicator for a number
readout. Alternatively, astrain gagecircuit can be attached on the tube to convert the pressure-
induced deflections into electric voltage signals. These signals can then be output electronically,rather than mechanically with the dia
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