Ultrasound
Kits | Accessories
| Spare Parts
Airborne
| Contact | Multifunction | Transmitters
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21"
Flexible Sensor
Accurate
detection of airborne ultrasounds is easier with the 21" or 32"
flexible sensor. Hard to find leaks in complex pipe work are revealed
quickly with this super sensitive sensor as its flexible design
can be bent and shaped to fit your specific job.
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32"
Flexible Sensor
Accurate
detection of airborne ultrasounds is easier with the 21" or 32"
flexible sensor. Hard to find leaks in complex pipe work are revealed
quickly with this super sensitive sensor as its flexible design
can be bent and shaped to fit your specific job.
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Extended
Distance Sensor (EDS)
Not
all airborne ultrasound are easily detectable when distances separate
the inspector from the source. Many facilities locate their distribution
lines in the ceilings 50-100' from the plant floor making leak
inspection impossible without scissor lifts, or ladder climbing.
The Extended Distance Sensor combines design and function to overcome
the problem of distance. Using a tapered angle design, the EDS
module focuses airborne ultrasound from compressed air leaks and
electrical faults. Detection of airborne ultrasound is possible
up to 10 times the normal distances of ordinary airborne sensors.
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10"
Parabolic Dish has Laser Sighting
The
Parabolic Dish with Laser sighting increases the range of detection
of the Ultrasound 170 to 250 feet and beyond. A recalculation of
the parabola dimensions allowed us to decrease the diameter of
the dish by over 75% and still increase its overall range by 20%
Equipped with both a laser sight and a visual target sight the
parabolic dish can pinpoint the source of airborne ultrasound
indoors and out.
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Airborne
| Contact | Multifunction
| Transmitters
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Magnetic
Contact Sensor
The
versatility of the Ultrasound 170 is enhanced with the use of the
contact magnetic sensor. Ideal for monitoring slow speed bearings,
trouble shooting hydraulics, pneumatics, steam traps, listening
for electrical faults inside switch gear panels, and more. Its
compact size and rugged stainless steel shell matches the longevity
of all the products in the Ultrasound line up.
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Threaded
Permanent Mount Contact Sensor
The
threaded sensor is used in applications where permanent contact
ultrasonic monitoring is required. Applications can range from
slow speed bearings on paper machines, critical gear mesh applications
on gearboxes, and hard to reach bearings on multi-axis machining
centres. A central junction box can tie several sensors together
allowing your operator to collect readings from a central point.
The sensors can also be equipped with thread on needles for portable
inspections
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Contact
Probe with needle and punch
The
Contact Probe is used for measurement of ultrasounds in structure
borne applications. Its provides consistent trending of ultrasound
generated by rotating equipment (bearings, gearboxes, couplings,
etcÉ). Its unique tri-frequency filtering allows the user to digitally
tune frequencies that reveal the earliest sign of bearing fatigue
and lubrication failure.
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Acoustic
Grease Gun Adaptor with Lube Sensor
Conditioned
base lubrication is the trend of the future that is here today.
The Acoustic Grease Gun Adaptor connects your Ultrasound 170 to
any grease gun allowing lube techs to acoustically re-grease bearings
hands free. The lube adaptor is available on its own, or equipped
with an ultrasonic sensor designed to trend and evaluate frequencies
associated with early lubrication failure.
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Airborne
| Contact | Multifunction
| Transmitters
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dBA
Class II Noise Sensor
The
SDT A-weighted sound pressure measurement microphone is to be
used in combination with the SDT 170 M and SDT 170 MD Multifunction
Ultrasonic Detectors. Sensor dBA SDT 170 with foam wind guard.
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Mass
Air Flow Sensor
Plug
this low flow mass air flow sensor and measure SCFM or SCCM with
the Ultrasound 170M or 170MD. Use the flow sensor to guesstimate
how much air is escaping from compressed leaks. Cost justify your
air leak survey by adding up the total leakage found.
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Contact/Non
Contact Tachometer
Use
the SDT Tachometer in either contact or laser non-contact mode
to pick up shaft speeds. Log RPM directly to DataManager via the
170MD data collector
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Non
Contact Temperature Gun
The
SDT non-contact Temperature sensor is used in combination with
the SDT 170 M and SDT 170 MD Multifunction Ultrasonic Detectors
to measure surface temperature by means of infrared energy. Over
lubrication of bearings can be detected by monitoring temperature
changes shortly after greasing.
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Interface
for J or K type Thermocouple
This
"Digital Thermocouple Interface" allows any ÔJ' or ÔK'-type thermocouple
to be connected via this interface with the SDT 170M and SDT 170MD
Multifunction Ultrasonic Detectors. The temperature can be read
in degrees Celsius or Fahrenheit.
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Airborne
| Contact | Multifunction | Transmitters
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200mW
bi-sonic Transmitter w/charger
The
200mW Bisonic Transmitter is used for checking tightness in smaller
volumes or for spot checks after primary inspections. It is a
single transmitter with bi-sonic (dual frequency) mode to eliminate
standing waves. Ideal uses include spot checks on small vehicles,
spot checks on building envelopes, clean rooms, refrigeration
chambers, zero oxygen rooms, and smaller waterproof manholes and
doors. For larger volumes (ships, cars, buses, airplanes, trains,
etcÉ) use the SDT 8 Multi Transmitter.
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SDT
08 Single Power Setting
Ultrasonic
transmitters generate dual high frequency signals. These signals
are small and therefore able to pass through very small leaks.
When the transmitter is placed inside a volume (cargo hold for
instance) the entire volume is flooded with dual ultrasonic waves.
Use an SDT ultrasonic detector outside the volume to find and
pinpoint the exact point of leakage.
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SDT
08 Multi Power Setting
Ultrasonic
transmitters generate dual high frequency signals. These signals
are small and therefore able to pass through very small leaks.
When the transmitter is placed inside a volume (cargo hold for
instance) the entire volume is flooded with dual ultrasonic waves.
Use an SDT ultrasonic detector outside the volume to find and
pinpoint the exact point of leakage.
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