Structures must be kept up with numerous means of maintenance
to ensure that they are safe for peoples to live, work and visit. To
carry out these maintenance practises upon a structure, then a process is
necessary to assuage the integrity of the structure itself. One of the prime
means of carrying out these processes is through vibrations monitoring.
The vibrations monitoring process requires a number of items of specialist equipment. This equipment is that of the transmitter and of the accelerometer. The accelerometer vibration unit serves to emit vibrations into the structure itself.
The vibrations monitoring process requires a number of items of specialist equipment. This equipment is that of the transmitter and of the accelerometer. The accelerometer vibration unit serves to emit vibrations into the structure itself.
Predictive Maintenance
The processes of predictive maintenance are altogether
integral to the safest and most efficient means of upkeep on any and all
varieties of structures and buildings. It is altogether essential in order to
plan any potential maintenance works to ensure that the least disruption is
offered to the peoples working or living within the structure.
Other benefits to predictive maintenance include;
- Increased equipment
lifetime
- Increased safety
- Fewer accidents onsite
- Optimised spare part
handling
- Less impact upon the
environment
Variances
There are a
range of different variants of the accelerometer vibration equipment. Each of
these different variants are available for integration into different
structures, dependent upon the properties of each respective structure.
Some of these different variances are;
- Flame retardant
- Oil resistant
- Braided cable, intrinsically safe
- Dual output
- Triaxial
Some of these different variances are;
- Flame retardant
- Oil resistant
- Braided cable, intrinsically safe
- Dual output
- Triaxial
Sensitivities
The
accelerometer vibration equipment is available in a variety of sensitivities.
Each of these different sensitivities are representative of the millivolts
utilised by the equipment in comparison to the respective square unit of
gravity (or g-unit).
Each of these different sensitivities, including 10mV/g, 30mV/g and 50mV/g, are each designed for specific integration into different structures.
Each of these different sensitivities, including 10mV/g, 30mV/g and 50mV/g, are each designed for specific integration into different structures.
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