Mount
If one of the stated malfunctions is detected or in
case of power failure, the electronics takes on a
defined switching condition, i.e. the relay deener-
gises (safe condition).
Functional principle
The tuning fork is piezoelectrically energised and
vibrates at its mechanical resonance frequency of
approx. 150 Hz. When the tuning fork is sub-
merged in the product, the vibration amplitude
changes. This change is detected by the integrated
oscillator and converted into a switching command.
2.3 Storage and transport
Packaging
Your instrument was protected by packaging
during transport. Its capacity to handle normal
loads during transport is assured by a test
according to DIN EN 24180.
The packaging consists of environment-friendly,
recyclable cardboard. In addition, the sensor is
provided with a protective cover of cardboard.
Dispose of the packaging material via specialised
recycling companies.
3 Mount
3.1 General instructions
Switching point
In general, VEGAWAVE S 61 can be mounted in
any position. The instrument must be mounted in
such a way that the vibrating element is at the
height of the requested switching point.
Moisture
Fig. 8: Measures against moisture penetration
14
Transport
Do not hold VEGAWAVE S 61 on the vibrating
element. Remove the protective cover just before
installation.
Handling
The vibrating level switch is a measuring instru-
ment and must be treated accordingly. Bending the
vibrating element will destroy the instrument.
Warning:
The housing of the threaded versions must
not be used to screw the instrument in!
Applying tightening force on the housing
can damage its rotational mechanical parts.
To screw in, use the hexagon above the
thread.
3.2 Mounting instructions
Socket
The vibrating element should protrude into the
vessel to avoid buildup.
Filling opening
Mount the instrument in such a way that the tuning
fork does not protrude directly into the filling
stream.
Horizontal mounting
a.
b.
Fig. 9: Horizontal mounting
a
Convex mounting
b
Concave mounting
20°
VEGAWAVE S 61