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Flow
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Piston Valve Design
Magnet equipped, spring supported piston is driven by the
flow rate and triggers magnetically adjustable contact or pointer units.
- good repeatability
- low pressure drop
- precise continuous setting of switch value
- dirt resitant
- also for darke or contaminated liquids
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Piston Inline Design
Magnet equipped, spring supported piston is driven by the
flow rate and triggers magnetically adjustable contact.
- good repeatability
- precise continuous setting of switch value
- dirt resitant
- also for darke or contaminated liquids
- indicator options
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Variable Area
Float is moving flow dependently in transparent conical
metering tube indicating the actual flow rate by position on housing scale.
- good accuracy
- good repeatability
- for liquids and gasses
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Paddle
Flow dependent paddle movement activates adjustable limit
contacts and / or pointer metering units.
- good repeatability
- low pressure drop
- precise continuous setting of switch value
- also for darke or contaminated liquids
- dirt resitant
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Dynamic Flap
A thin, spring-mounted shutter that covers the entire
flow cross-section is displaced by the flow of the liquid. The shutter has a
magnet that creates a changing magnetic field when the shutter is displaced.
This field is detected by a analogue hall-sensor. Due to the spring
properties of the shutter and a molded stop, even strong water impacts can
be withstood. The low number of parts coming into contact with media
guarantees low soiling properties and reliable operation.
- fast response time
- large overload security
- measurement range 1:80!
- low pressure loss
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Rotor
Flow dependent revolution of rotor elements provide
linear signals by induktiv, optical or magnetic sensors.
- wave / axle
- ±3% of full scale
- self safe function
- also as probe form possible
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Turbine
Flow dependent revolution of turbine elements provide
linear signals by induktiv, optical or magnetic sensors.
- wave
- ±1% of full scale
- self safe function
- large measuring range
- compact
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Gear Wheel
Gear wheel flow meter, which provides a linear frequency
signal by flow proportional revolution of a gear wheel and sensoring by a
field biased Hall sensor. Viscosity compensated by volumetric operation.
- axle
- ±3% of full scale
- self safe function
- viscosity comensated
- only for liquids
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Oval Wheel
The oval wheel flow meters are used for measuring,
control and counting viscous flow directions.
- axle
- ±2,5% of the measured value
- self safe function
- viscosity comensated
- only for liquids
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Calorimetric
Electronical flow control without moving parts. Flow
dependent temperature differential is electronically compensated and serving
as decisive parameter for the flow control.
- compact flow switch
- no moving parts
- very low pressure drop
- high grate materials
- one sensor for a wide range of pipe diameters
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Inductive
In case of inductive metering a conductive fluid
generates a flow proportional voltage (induction) in a magnetic coil.
- no moving parts
- very low pressure drop
- high grate materials
- one sensor for a wide range of pipe diameters
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Ultrasonic
The flow control by ultrasonic technology refers to the
impact of flow velocity to the ultrasonic signals. The signal is emitted and
received by a separate sensor element with a delay which is directly
depending on the flow velocity.
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Vortex
A narrow, triangular body that goes through the entire
cross-section of the meter tube creates a vortex when a flow is present (Kármáns
vortex effect). The frequency of the vortex is proportional to flow and is
detected by a piezo sensor lying behind the triangular body. The entire
unit, vortex body, and detector as designed as a module. They are inserted
into the tube. The meter tube and the entire measuring unit can thus be
separated from each other extremely quickly.
- no moving parts
- large overload security
- high accuracy
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Sight Glass
The liquid enter the sight glass allowing a quality and
substance observation.
- no moving pards
- for dark or contaminated liquids
- double-faced, wide windows
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Flap
The liquid enter the sight glass allowing a quality and
substance observation. Additional flap component allow a quantitative trend
indication of flow rate.
- for dark or contaminated liquids
- double-faced, wide windows
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Sphere
The liquid enter the sight glass allowing a quality and
substance observation. Additional sphere component allow a quantitative
trend indication of flow rate.
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Orifice
Dynamic diaphragm adjust the free flow symetry by means
of flow dependent differential pressure limiting the flowrate to pre
determined value.
- self supporting
- wothout auxiliary energy
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Level
Magnet equipped float follows the level and activates
fixed or variable contact units. Ultrasonic sensor creates signals with the
modification of the reference level mode.
- reliable
- good repeatability
- wall- and top assembly
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NM
Appliance:
level, float control
top assembly
Electr. Data:
reed switch n.o. / n.c.
250-300 V AC 0,5-1,3A 10-80 VA
Basic Data:
PN 5-40 , tmax=60-105°C
Connection:
Pg7 male thread socket plastic
G1/8A - G1/4A male thread socket stainless steel
Height:
40-75mm
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NMS
Appliance:
level, float control
top assembly
Electr. Data:
reed switch n.o. / n.c.
250-300 V AC 0,5-1,3A 50-80 VA
Basic Data:
PN 12 , tmax=105°C
Connection:
G1/8A male thread socket brass
Height:
40-77mm
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SB
Appliance:
level, float control
top assembly
Electr. Data:
reed switch change over
220 V AC 0.5 A 60 VA
Basic Data:
PN 12 , tmax=105°C
Connection:
G1A male thread socket brass
Height:
100-500mm
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NR
Appliance:
level, float control
top assembly
Electr. Data:
reed switch n.o. / n.c.
250 V AC 1 A 250 VA
Basic Data:
PN 15 , tmax=100°C
Connection:
G2A male thread socket stainless steel
DN100 flange aluminium
Height:
250-1000mm
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LC
Appliance:
level, float measure
top assembly
Electr. Data:
resistance chain 24 V DC 50mA
opional 4...20mA or 0...10V
Basic Data:
PN 10-40 , tmax=105°C
Connection:
G1A - G1 1/2 A male thread socket brass
G2A male thread socket stainless steel
Height:
250-2000mm
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RW
Appliance:
level, float control
wall assembly
Electr. Data:
reed switch n.o. / n.c.
220-250 V AC 0.28-0.5 A 30-50 VA
Basic Data:
PN 5-6 , tmax=120-200°C
Connection:
1/2BSP male thread socket stainless steel
Depth:
80-89mm
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RWI
Appliance:
level, float control
wall assembly
Electr. Data:
reed switch n.o. / n.c.
250 V AC 0.5 A 50 VA
Basic Data:
PN 3-6 , tmax=90-130°C
Connection:
M16 male thread socket plastic
23 compression gland plastic
Depth:
60mm
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NW3
Appliance:
level, float control
wall assembly
Electr. Data:
reed switch n.o. / n.c.
230 V AC 1A 50 VA
Basic Data:
PN 10-25 , tmax=110°C
Connection:
G3/4A male thread socket brass / stainless steel
Depth:
72-76mm
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NW1
Appliance:
level, float control
wall assembly
Electr. Data:
reed switch n.o. / n.c.
230 V AC 1A 50 VA
Basic Data:
PN 10-25 , tmax=110°C
Connection:
G3/4A male thread socket brass / stainless steel
Depth:
72-76mm
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MW3
Appliance:
level, float control
wall assembly
Electr. Data:
micro switch change over
250 V AC 5 A
Basic Data:
PN 10-25 , tmax=110°C
Connection:
G3/4A male thread socket brass / stainless steel
Depth:
72-76mm
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CWE
Appliance:
level, float control
wall assembly
Electr. Data:
micro switch change over
250 V AC 15(8) A
Basic Data:
PN 11 , tmax=85°C
Connection:
R1" male thread socket brass
Depth:
190mm
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MWI
Appliance:
level, float control
wall assembly
Electr. Data:
micro switch change over
250 V AC 5 A
Basic Data:
PN 15 , tmax=180°C
Connection:
G1A male thread socket brass
Depth:
220mm
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NG
Appliance:
level, float control
bypass assembly
Electr. Data:
reed switch n.o. / change over
220 V AC 0.2 A
Basic Data:
PN 8 , tmax=75°C
Connection:
1/2"NPT female thread aluminium
Hole Center Distance:
110-167mm
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NBS
Appliance:
level, float indicate
top assembly
Basic Data:
tmax=50°C
Connection:
G3/8A male thread brass
Height:
185-445mm
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NB
Appliance:
level, sight glass indicate
top assembly
Basic Data:
tmax=80°C
Connection:
G3/8A male thread brass
Height:
40-300mm
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NA
Appliance:
level, sight glass indicate
wall assembly
Basic Data:
tmax=80°C
Connection:
G3/8A male thread brass
Height:
40-300mm
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NL
Appliance:
level, infrared control
Electr. Data:
supply 5 or 12 V DC
transistor output
Basic Data:
tmax=100°C
Connection:
1/2" NPT male thread socket steel / stainless steel
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EL
Appliance:
level, ultrasonic measure
Electr. Data:
supply 18...30 V DC
output 0...10V
Basic Data:
tmax=90°C
Connection:
M18x1 / M30x1,5 male thread socket plastic
Range:
100-2500mm
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Temperature
Bimetal element is tiggered by pre fixed temperature.
Diphragm with adjustable characteristic allows adjustable temperature
control, PT 100/1000 sensors provided linear, temperature related signal.
- optional installation
- compact dimensions
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TF1
Principle:
control
Electr. Data:
n.o. / n.c.
230 V AC 10 A
Basic Data:
PN 100 , tmax=100-140°C
Connection:
G1/2A male thread socket brass
Range:
50-90°C
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TR
Principle:
control
Electr. Data:
change over
250 V AC 15(8) A
Basic Data:
PN 16 , tmax=145°C
Connection:
R1/2" male thread socket brass
Range:
35-130°C
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ETS
Principle:
measure
Electr. Data:
supply 10...30 V DC
output 4...20 mA
Basic Data:
PN 25 , tmax=80°C
Connection:
G1/2A male thread socket stainless steel
Range:
0-100°C
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ETSD
Principle:
differential measure
Electr. Data:
supply 10...30 V DC
output 4...20 mA
Basic Data:
PN 25 , tmax=80°C
Connection:
G1/2A male thread socket stainless steel
Range:
0-50°C
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Pressure
Piston or diaphragm are moving pressure related and
activate adjustable contacts. A piezoresistive strain relief element
provides a linear signal of 4-20mA as open ceramic sensor or in flushing
stainless steel design.
- optional installation
- compact dimensions
- low hysteresis
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PM
Principle:
control
Electr. Data:
n.o. / n.c.
48 V AC 0.5(0.2)A
Basic Data:
PN 80-300 , tmax=60°C
Connection:
R1/8" male thread socket brass / steel / stainless steel
Range:
0.15 - 150 bar rel
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PH
Principle:
control
Electr. Data:
n.o. / n.c.
48 V AC 0.5(0.2)A
Basic Data:
PN 80-300 , tmax=60°C
Connection:
R1/8" male thread socket brass / steel / stainless steel
Range:
0.15 - 150 bar rel
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PI
Principle:
control
Electr. Data:
change over
250 V AC 3(2)A
Basic Data:
PN 60-600 , tmax=60°C
Connection:
R1/8" - R1/4" male thread socket aluminium
Range:
0.2 - 300 bar rel
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VP
Principle:
control
Electr. Data:
n.o. / n.c.
48 V AC 0.5(0.2)A
Basic Data:
PN 20 , tmax=60°C
Connection:
R1/8" male thread socket steel / stainless steel
Range:
200-900 mbar
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MD
Principle:
differential control
Electr. Data:
change over
250 V AC 5(0.5)A ,
24 V AC 1(0.2)A
Basic Data:
PN 0.15-0.3 , tmax=80°C
Connection:
6.2 nozzle plastic
Range:
0.2 - 10 mbar rel
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PS
Principle:
measure
Electr. Data:
supply 11.5...30 V DC
output 4-20 mA
Basic Data:
PN 16-200 , tmax=125°C
Connection:
G1/4A male thread socket stainless steel
Range:
0-100 bar
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EPS
Principle:
measure
Electr. Data:
supply 10...30 V DC
output 4...20 mA
Basic Data:
PN 1-400 , tmax=80°C
Connection:
G1/2A male thread socket stainless steel
Range:
0-400 bar
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EPS1
Principle:
measure
Electr. Data:
supply 10...30 V DC
output 4...20 mA
Basic Data:
PN 1-400 , tmax=80°C
Connection:
G1/2A male thread socket stainless steel
Range:
0-200 bar
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EPD1
Principle:
differential measure
Electr. Data:
supply 10...30 V DC
output 4...20 mA
Basic Data:
PN 3-400 , tmax=80°C
Connection:
G1/2A male thread socket stainless steel
Range:
0-200 bar
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Integrated Systems
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Omni
- two switching points
- hysteresis selectable in magnitude and direction
- 4(0) – 20mA analogue output
- graphical LCD display (increased temperature range, illuminated,
units in the display, incl. super-bright signalling LED)
- dialogue messages in the display
- programming ring (can be operated when wearing protective gloves)
- programming protection by turning through 180° or by removing
- programming ring
- stainless steel housing
- mineral glass (tempered, scratch and breakage proof) for covering
the display
- M12x1 connector system
- system mounting to all HONSBERG primary sensors (rotatable)
- compact dimensions
- IP 67
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Flex
- 4-20 mA or 0-10 V output
- switch or frequency output pnp, npn
- LED switch indicator surround
- hysteresis variable
- switch on delay variable
- switch off delay variable
- delay subsequent to supply
- high level of variation selection
- easy programming using magnet
- M12x1 connector system
- identical handling of different sensors
- system mounting to all HONSBERG primary sensors (rotatable)
- stainless steel housing
- compact dimensions
- IP 67
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Converter
Honsberg supplies a range of signal transducers which
can be used in combination with Honsberg devices or even as stand-alone
units within the context of the metering task set. These components have
been designed to match Honsberg devices, and support operation and safety.
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A-H1
Principle:
switch head ATEX
I M1 EEx ia I
II 1G EEx ia IIC T4
II 1D EEx iaD 20 T135
Electr. Data:
30V 1.5A 50W change over
Basic Data:
tmax=50°C
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A-H2
Principle:
switch head ATEX
I M1 EEx ia I
II 1G EEx ia IIC T4
II 1D EEx iaD 20 T135
Electr. Data:
30V 1.5A 50W n.o. or n.c.
Basic Data:
tmax=50°C
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A-U1
Principle:
switch head ATEX
I M1 EEx ia I
II 1G EEx ia IIC T4
II 1D EEx iaD 20 T135
Electr. Data:
30V 1.5A 50W n.o. or n.c.
Basic Data:
tmax=50°C
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A-V1
Principle:
switch head ATEX
I M1 EEx ia I
II 1G EEx ia IIC T4
II 1D EEx iaD 20 T135
Electr. Data:
30V 1.5A 50W change over
Basic Data:
tmax=50°C
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A-V2
Principle:
switch head ATEX
I M1 EEx ia I
II 1G EEx ia IIC T4
II 1D EEx iaD 20 T135
Electr. Data:
30V 1.5A 50W change over
Basic Data:
tmax=50°C
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A-V3
Principle:
switch head ATEX
II 2G EEx D IIC T6
Electr. Data:
250V AC 5A change over
Basic Data:
tmax=50°C
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EEZ-904
Principle:
counter
Electr. Data:
supply 90...260 V AC, 48 V AC , 24 V AC or 11...30 V DC
2 relay with potentalfree make or break contact or optocoupler with open
collector and emitter
Basic Data:
tmax=50°C
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EEV
Principle:
frequency/frequency converter
Electr. Data:
supply 10...30 V DC
output PNP, NPN or NPN OC
Basic Data:
tmax=70°C
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EFFF
Principle:
frequency/frequency converter
Electr. Data:
supply 10...30 V DC
output PNP, NPN or NPN OC
Basic Data:
tmax=70°C
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EFFI
Principle:
frequency Sensor with current output
Electr. Data:
supply 10...30 V DC
output 0..20 mA or 4..20 mA
Basic Data:
tmax=70°C
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EFFS
Principle:
frequency switch
Electr. Data:
supply 10...30 V DC
output PNP, NPN or NPN OC
Basic Data:
tmax=70°C
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EFFU
Principle:
frequency Sensor with voltage output
Electr. Data:
supply 10...30 V DC
output 0..10 V or 2..10 V
Basic Data:
tmax=70°C
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ESA1
Principle:
local electronic unit and switching module
Electr. Data:
supply 24 V DC
output n.o. 24 V DC
Basic Data:
tmax=60°C
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ESK2
Principle:
local electronic with two electronic switching outputs
Electr. Data:
supply 18...30 V DC
electronic , NPN/PNP connectable
Basic Data:
tmax=80°C
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ESK3
Principle:
local electronic with two electronic switching outputs
Electr. Data:
supply 230 V AC
output relay contact
Basic Data:
tmax=80°C
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GIA
Principle:
Display with switching point
Electr. Data:
4...20 mA, two wire
Basic Data:
tmax=50°C
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MSR
Principle:
multifunctional relay
Electr. Data:
supply 230 V AC
output relay and 24 V DC
Basic Data:
tmax=70°C
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WE
Principle:
isolated switching amplifier with realay output
intrinsically safe control circuit [EEx ia] IIC
Electr. Data:
supply 198-253 V AC,
45-65 Hz
Basic Data:
tmax=60°C
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Filter
Honsberg filters are provided to protect Honsberg
devices against soiling or as independent components for coarse and fine
filtration of liquids.
The fine filters [ZE] have filter cartridges in a fineness range from 5-250
pm in metal or ceramic and are thus able to take over tasks which require
extremely fine filtration.
A standard dirt trap is only able to achieve part of its protective function
where ferrite abrasion is present in the medium, which is much smaller in
grain size than the mesh of the dirt trap and is thus rinsed through it. For
such cases, Honsberg magnetic filters [ZV] provide additional protection in
that a magnetic rod which is equipped with shielded pairs of magnets is
positioned in the centre of the dirt trap sieve and precipitates ferrite
materials.
The individual pairs of magnets are poled in a certain way and shielded from
one another by soft iron discs creating an optimum magnetic field in the
area of the sieve, thus guaranteeing better efficiency.
The connection of the magnetic rod with the dirt trap cover leads to simple
cleaning of the magnetic rod within the context of the specified maintenance
intervals. The application ranges of Honsberg magnetic filters include
industrial lubricating and cooling circuits as well as wherever the
protection of high-quality metering devices such as heat counters etc. must
be guaranteed, such as in the area of heating technology with boilers and
radiators
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ZV
Principle:
magnetic filter
Basic Data:
PN 16, tmax=60°C
Connection:
G1/2 - G3 female thread bronze
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ZE
Principle:
fine filter
Basic Data:
PN 10, tmax=52°C
Connection:
Rp 1/8 - Rp3/4 female thread plastic
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Accessories
The accessories range includes mechanical components
such as valves [VC], valve strips [VB, fittings [TS] and flanges [FL] or
electrical components as contact protection [HE].
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VB
Principle:
manifold 1-8 Measurement Spots
Basic Data:
PN 25, tmax=110°C
Connection:
G3/4 female thread aluminium
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VC
Principle:
control valves
Basic Data:
PN 16, tmax=120°C
Connection:
NPT1/8" female thread stainless steel
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FL
Principle:
flange connection
Connection:
flange DN32 steel/stainless steel
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TS
Principle:
T-fitting
Connection:
female thread G3/8 to G2 brass/stainless steel
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HE
Principle:
spark protector
Electr. Data:
250 V AC 50 Hz; 630 V DC
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E 
