Vickers Filtration Master Catalogue - Filtration Products
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Filtration Products Vickers Filtration Master Catalogue
LV2P Series
LV2P Series Pressure
Pressure 110
110
MODELPAGE MODELPAGE
Flows to:
Flows to: 110
110 L/min
L/min (29
(29 USgpm)
USgpm)
Fluid Analysis
Eaton Fluid Analysis Service
Pressures to:
Pressures to: 100
100 bar
bar (1,500
(1,500 psi)
psi)
Elements: V051...series
V051...series
Critical Analysis Clear Benefits
Eaton hydraulic components have a global reputation
for quality, reliability and performance. That reputation
is built on a tradition of customer service and we
Fluid is the lifeblood of every
hydraulic power system. To
keep yours running
We offer testing designed to
tell you the most about your
hydraulic fluid. We use Elements: 111
111
Fluid Analysis Pressure Filters
efficiently and effectively, sophisticated computer
stand behind every one of our products.
Breathers
Our Fluid Analysis Service follows that same tradition.
you need to know what’s in
it. What you don’t know can
programs and laboratory
diagnostic equipment such
hurt you. as an Energy Dispersive
We provide our customers with comprehensive fluid
The Eaton Fluid Analysis X-ray Fluorescence and an
testing and diagnostic services, with detailed reports inductively coupled plasma
that are easy to understand. Service analyzes hydraulic
spectrophotometer.
LV4PSeries
SeriesPressure
Pressure 113
fluid in much the same way
To find out how theH2O-gate™
Eaton Fluid
Analysis Service can help your
operation, read on.
Reservoir Breather
a medical lab tests a blood
Fluid Analysis
sample. Just as a blood test
helps a doctor diagnose
Features/Benefits:
health problems, a sample of
After we use this advanced
equipment to provide the
most• detailed
Media possible
contains oil
analysis of your hydraulic
Part Numbers:
9 ECF
LV4P Series Pressure 34
113
Flows to: 110 L/min (29 USgpm)
• Visual Mechanical attractant layerthat
to collect
Flows
Flows to:
to: 19
110L/min (5(29
USgpm)
Then call us to hydraulic fluid can help fluid, we create reports
L/min USgpm)
us pinpointActuates
sources of when and return
are always oil splashes.
easy to read and
H20-gate BR110
get started. Indicator:
contamination and determine understand. By taking the Bayonet Adapter 924710
particles have blocked the • Easyout Installation:
Pressures to: 100 bar (1,500 psi)
whether or not your system mystery of fluid analysis, Screw-in Adapter P-077002
media, beforefiltration.
the pump Lightweight
a service design can
Pressures to: 100 bar (1,500 psi)
uses adequate we provide that
cavitates.
We can help you reduce clearlybe handthe
explains tightened
benefits onto
Pressures to: 207 bar (3,000 psi) 35
Elements: V051...series
V051...series
of clean fluid.
adapter.
114
catastrophic equipment
• Proprietary Media:
Elements: 114
failures, maintain optimum
A Name You Trust Reduces
componentdew point
performance, • Durable Plastic Housing:
Only one fluid analysis lab lets you put years of Eaton temperature
and identify anytosubstandard
prevent Protects the media from
experience to work for you. So when the health of condensation and is Your
maintenance practices. external splashing.
Breathers
your hydraulic system is at stake, choose a partner bottom-line
99.7% benefitinis blocking
efficient
with more than 75 years of experience. Contact your increased productivity. • Superior breather filters
Eaton representative for more information on our Fluid
particles 3µ and larger. both moisture and
Analysis Service. • Reversible Flow Through particles from air.
Media: Allows for
HF2P
HF2P Series In Line
Lineand
andSubplate
Subplate 36
• Effective up to 121°C
Series In Line and Subplate 116
Comprehensive Testing Viscosity (ASTM D445): moisture
and degrades to exit the
equipment if any, (250°F)
are needed. The lab
BR110 Breather 13 HF2P Series 116
We use this test to determine reservoir.
performance. is also capable of testing to
The Eaton Fluid Analysis the viscosity of your oil. the•new Rated up to 25 SCFM
ISO 4406(1999)
Service is certified to ISO Drawdown Particle
Without proper hydraulic fluid Isolation: Using this test, standard (4µ, 6µ,14µ).
Flowsto:
to:90
90L/min
L/min(24(24USgpm)
USgpm)
12025 and offers a full range
Flows
viscosity, your equipment will we determine the insoluble Spectrometric Analysis
of tests specifically designed
Flows to: 90 L/min (24 USgpm)
suffer. Incorrect viscosity
Filters out moisture and particles from incoming air
for the analysis of hydraulic contaminates in hydraulic (ASTM D 5185): This shows
leads to fluid breakdown, fluids, both insoluble us the concentration of oil-
and lubrication system Dirt-gate™
fluid. Reservoir
equipment Breather
Pressuresto: to:280
280bar
bar(4,000
(4,000psi)
psi)
inefficient particles and gel-like matter, soluble elements and
Pressures
Our laboratory equipment operation, premature system
Pressures to: 280 bar (4,000 psi)
and test procedures provide organics and inorganics. indicates the additives and
failure and damage to other Features/Benefits:
Used in conjunction with trace metal content in the Part Numbers:
an exact analysis of your components. photomicrography,
Mechanicalthe fluids. We use this technique
Elements:V304...series
V304...series
hydraulic or oil lubricated • Visual • Durable Plastic Housing:
system, and our drawdown
particle isolation procedure
ensures accurate results.
drawdown patch helps us
Indicator:
identify theActuates
particles
source andwhen
have blocked the
of fluid contaminants.
media, before theCount
type
pump
to evaluate the condition
of the Protects
additives inthe
rather external
media from
a fluid
splashing.
than its particulate
contamination. Used in
Dirt-gate
Bayonet Adapter
Screw-in Adapter
BR210
924710
P-077002 Elements:
Elements: V304...series 117
37
117
Automatic Particle • High Efficiency:
Our testing procedures cavitates.
(ISO 11500): We use a high- conjunction with automatic
can include: intensity laser light source and particle(99% at 2it helps
counting, microns)
us
• Easy Installation:
a photo sensor to count the accurately assess the
• Very Low Pressure Drop Note:
Photomicrography: We cleanliness level of the fluid.
scan and photograph a filter Lightweight
number and size design can
of particles
• Filters out particles This breather does not filter
BR210 Breather 13
patch using an optical be hand
in the fluidtightened
sample andonto
then Energy Dispersive X-ray
define contaminants
adapter. Fluorescence (ASTM E moisture from air.
MF2P Series Pressure 119
microscope to find particle • Effective up to 121°C
size and type. The scanning according to size distribution 1508): We perform Energy
MF2P Series
Series Pressure 119
Water (ASTM E203): We and quantities. Automatic (250°F)
Dispersive X-ray Fluorescence
process verifies the determine the water content
MF2P Pressure 39
automatic particle count to particle counting is quick, (XRF)
• analysis
Rated onupsamples
to 25 SCFM
Filters out particles from incoming air
in hydraulic fluid, which helps repeatable and accurate. It with extremely high
identify samples needing
Flows to:
to: 113.5
113.5 L/min
L/min (30
(30 USgpm)
USgpm)
us predict quality and provides reliable information concentrations of particulate
special preparation. This performance characteristics
Flows
provides confirmation of we can use to check against contamination. By isolating
for the fluid and system ISO Standard 4406, which chemical elements, we
automatic counter results, components. Excess water
Flows to:
Pressures 113.5
to: L/minbar
275.5 (30(4,000
bar USgpm)
(4,000 psi)
and helps us see what defines the relationship pinpoint contaminant types so
reduces the viscosity of between particle counts and we can establish their origins,
Pressures to: 275.5 psi)
contaminants are in the fluid. hydraulic fluid, which
hydraulic fluid cleanliness. and so you can take corrective
increases the likelihood of This lets us determine exactly action.
Elements: V051...series
Pressures V051...series
to: 275.5 bar (4,000 psi) 120
adverse chemical reactions what corrective actions,
Mobile-gate™ Filler Breather Assemblies
EATON Vickers Filtration Catalog E-FIFI-MC002-E2 December 2007
Features/Benefits:
11
Part Number Elements: 120
• Proprietary Media: • Reversible Flow Through MBR110 5002486
Elements: V051...series 40
MBR110 and MBR120 Breathers 13
Reduces dew point Media: Allows for MBR120 5002487
temperature to prevent moisture to exit the
condensation and is reservoir.
99.7% efficient in
OFPH003/005 Series
Series Pressure
Pressure 122
• Easy Installation:
Filters out moisture and particles, ideal for mobile
blocking particles 10µ
OFPH003/005 122
Lightweight design can be
and larger. hand tightened.
• Water Barrier: • Rugged metal housing is
applications
Regenerates its water
shedding capacity with
each cycle.
long lasting and ideal for
mobile applications. FlowsSeries
Flows
HF4P up to:
up to:In
53Line
53 L/min
L/min (14Subplate
(14
and USgpm)
USgpm) 42
MBR120
• Rated to 16.7 SCFM
Pressures to:
Pressures to: 310
310 bar
bar (4,500
(4,500 psi)
psi)
Flows to: 570
Elements: L/min (150
OFPH31 USgpm)
== V0603
V0603 123
MBR110
Elements: OFPH31 123
Items not in bold are non-standard and may have a longer lead time
Pressures to: 345 bar
OFPH51 (5,000
V0604 psi)
== V0604 123
Return Line Filters
EATON Vickers Filtration Catalog E-FIFI-MC002-E2 December 2007 17
OFPH51
OFPH52 == V0114
V0114
123
12343
Elements: V405...series
OFPH52 123
HV3R Series Return Line 17
Flows to: 280 L/min (75 USgpm) HF4P Series In Line and Subplate 125
HF4P Series
HF3P Series In In Line
Lineand
Subplate 125
45
Pressures to: 50 bar (725 psi)
Flows to:
Flows to: 570
570 L/min
L/min (150
(150 USgpm)
USgpm)
Elements: V3R...series 18 Flows to: 454
Pressures to: L/min
to: 345 (120
345 bar USgpm)
bar (5,000
(5,000 psi)
Pressures
Pressures to: 420 bar (6,000 psi)psi)
Elements: V405...series
Elements: V405...series 126
126
Elements: V602...series 46
In-tank Filters HF3P Series
Series In
In Line
Line 128
HF3P 128
HF4RT Series In Tank 21 Flows to:
to: 454
454 L/min
L/min (120
(120 USgpm)
USgpm)
Accessories
Flows
Pressures to:
to: 420
420 bar
bar (6,000
(6,000 psi)
psi)
Flows to: 568 L/min (150 USgpm) Pressures
Pressures to: 7 bar (100 psi) Elements: V602...series
Differential
Elements: V602...series
Indicators 129
48
129
Elements: V405...series 22 Indicator Switch Schematics 50
HF3PS Series
HF3PS Series Side
Side Mount
Mount 131
131
Electrical Pressure Switch 52
Flows to:
Flows to: 565
565 L/min
L/min (150
(150 USgpm)
USgpm)
Suction Strainers Pressures
Gauge to:
Pressures to: 310
310 bar
bar (4,500
(4,500 psi)
psi) 53
Elements: V602...series
Elements: V602...series 132
132
OF3 Series Inlet Strainer 24 Mounting Bracket 53
Flows to 379 L/min (100 USgpm)
Seal Kits 54 EATON Vickers
EATON Vickers
Notes 55
Spin-on Filters
OFRS 15 Series Spin-on 27
Flows to: 60 L/min (15 USgpm)
Pressures to: 7 bar (100 psi)
Elements: V019...series 28
HS22 Series Twin Spin-on 30
Flows to: 450 L/min (120 USgpm)
Pressures to: 14 bar (200 psi)
Elements: V021...series 31
Check out our full line of filtration products and accessories at www.eaton.com/filtration
2 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 February 2022Introduction to Eaton Filtration
Fluid Power is one of the most reliable and repeatable
forms of power and motion control. When problems are
encountered, 80% of the time they are related to
inadequate contamination control practices. Eaton has
more than a 75-year history of dedication to helping
engineers develop, operate and maintain reliable, high
quality power and motion control systems.
Fluid Analysis
The systemic contamination Once the targetEaton
has been There are four primary
Fluid Analysis Service Critic
control approach assures set, the next step is to sources for solid
Eatonfilters
hydraulic components have a global reputation Fluid
the user of the hydraulic select and position contamination to enter hydra
for quality, reliability and performance. That reputation
system a cost effective in the system so that the a hydraulic fluid.
is built on a tradition of customer service and we keep
approach to contamination target can be achieved
stand behindin every oneThey are:products.
of our contaminated new
efficie
you n
control that allows the price a cost effective manner. oil, built-in contamination, it. Wh
Our Fluid Analysis Service follows that same tradition.
of the filters and elements After the machine ingressed
is in our customers
We provide contaminationfluid
with comprehensive hurt y
to be quickly recovered by operation, the last and
testing and
and diagnostic internally-generated
services, with detailed reports The E
the savings of improved ongoing step isthat
to are easy to understand.
confirm contamination.
Servic
fluid i
performance, increased that the target To
cleanliness a med
find out how the Eaton Fluid
component life, increased oil level is being maintained.
Analysis Service can help your samp
life, increased uptime and operation, read on. helps
fewer repairs. This is most often health
Then call us to hydra
accomplished by sending
The goal of systemic a fluid sample toget started.
a particle
us pin
conta
contamination control is counting laboratory that wheth
always the same: to clean gives cleanliness code data uses
the fluid to the point that to established standards. If We c
contamination is not a factor the target is being met, the
catas
failure
in the failure (catastrophic, system only needsA Name You Trust
to have comp
intermittent, or degradation) Onlyand
one fluid Eaton Fluid Analysis Service PN 894276
For a hydraulic or oil filters maintained the analysis lab lets you put years of Eaton and id
of any component in the experience to work for you. So when the health of
fluid retested periodically. If
maint
lubricated machine, the your hydraulic system is at stake, choose a partner botto
system during the desired the cleanlinesswith
target
moreisthan
not75 years of experience. Contact your
development of a target increa
useful life of that system. being achieved,Eaton representative for more information on our Fluid
corrective
cleanliness level and the Analysis Service.
plan to achieve it is as much The first step towards this actions need to be taken.
a part of system design as goal is the setting of a target Sometimes a change in
cleanliness level that takes Comprehensive
maintenance practices is Testing Viscosity (ASTM D445): and d
the selection of the pump, We use this test to determine perfor
valves, actuators or bearings. into account the specific needed, but at Theother times
Eaton a
Fluid Analysis the viscosity of your oil.
Service is certified to ISO Draw
needs of the system. shift to a finer grade of filter
12025 and offers a full range
Without proper hydraulic fluid Isolat
elements or additional filter designed viscosity,
of tests specifically
your equipment will we de
Vickers Systemic Sources of Contamination housings may be needed.
for the analysis of hydraulic
suffer. Incorrect viscosity conta
leads to fluid breakdown, fluids
Approach to Eaton doc. 561, page 8 and lubrication system fluid. inefficient equipment partic
Our laboratory equipment
Contamination Control and test procedures provide
operation, premature system organ
Generated Ingressed from cylinder rod failure and damage to other Used
• Set a target Cleanliness an exact analysis of your
by cylinder hydraulic or oil lubricated
components. photo
Level system, and our drawdown drawd
particle isolation procedure identi
• Select filters and filter ensures accurate results. of flui
placements to achieve A B Autom
target Our testing procedures (ISO 1
Generated by valve can include: intens
• Sample fluid and confirm P T a pho
Photomicrography: We
achievement scan and photograph a filter numb
patch using an optical in the
Pressure microscope to find particle define
accord
line filter size and type. The scanning Water (ASTM E203): We and q
process verifies the determine the water content
automatic particle count to partic
in hydraulic fluid, which helps repea
identify samples needing us predict quality and
Transfer cart
special preparation. Thisfilter performance characteristics
provid
provides confirmation of we ca
for the fluid and system ISO S
automatic counter results, components. Excess water
and helps us see what define
reduces the viscosity of
Return contaminants are in the fluid. hydraulic fluid, which
betwe
line hydra
Ingressed from Generated increases the likelihood of This le
Ingressed filter adverse chemical reactions
air breather what
by pump through
M reservoir M EATON Vic
openings Ingressed
from
Built-in debris new oil
4 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 DecemberEATON
2007 Vickers Filtration Catalog E-FIFI-MC002-E2 February 2022 3Introduction to Eaton Filtration
Contaminated New Oil be metal, silica and fibers. Ingressed Contamination Generated Contamination
Although hydraulic and With fluids from reputable Contamination from the The most dangerous
lubrication fluids are refined suppliers, sampling has immediate surroundings can contamination to a system is
and blended under relatively shown typical Cleanliness be ingressed into the fluid the contamination generated
clean conditions, the fluid Levels of 17/16/14 or dirtier. power or lubrication system. by the system itself. These
travels through many hoses Using a portable transfer cart On large installations, such as particles are “work
and pipes before it is stored fitted with a high efficiency those within steelworks or hardened” to a greater
in drums or in a bulk tank at filter, contamination should automotive plants, it is hardness than the surface
the user’s facility. At this be removed from new fluids relatively easy to know the from which they came, and
point, the fluid is no longer before the contamination environmental conditions, are very aggressive in
clean as the fluid lines it has enters and damages the though they vary considerably. causing further wear in the
traveled through have components in the system. For example, a coke oven system. In a system running
contributed metal and rubber system operates in conditions on properly cleaned fluid very
particles, and the drums Built-in Contamination very different from a similar few particles are generated,
have added flakes of metal New machinery always system in a cold mill. For although all components
or scale. Storage tanks are a contains a certain amount of mobile equipment, there is a (especially pumps) create a
real problem because water built-in contamination. Care very wide variation in small amount of particles
condenses in them causing in system assembly and in environmental conditions by during routine operation. In a
rust particles. Contamination new component flushing application, location and even system where these particles
from the atmosphere can reduces this but never by weather conditions (i.e. are not quickly captured the
eliminates it. Typical built-in high winds). elevated contamination levels
The key is to severely limit will cause the number of
the access that environmental additional generated particles
contamination has to enter to increase at a highly
the hydraulic or lubrication accelerated rate! The best
system. There are four major way to prevent
ways dirt can enter a system: contamination generation
reservoir vent ports (breathers), within a system is to start
power unit or system access with a clean (fully flushed)
plates, components left open system and keep the system
during maintenance and fluid clean.
cylinder seals.
Eaton Clean Cart
also find its way into the Eaton H20 Gate Reservoir Breather BR110
tank unless satisfactory air
breathers are fitted. contaminants are burrs,
If the fluid is stored under chips, flash, dirt, dust, fiber,
reasonable conditions, the sand, moisture, pipe sealant,
principal contaminants on weld splatter, paint and
delivery to the machine will flushing solution.
4 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 FebruaryEATON
2022 Vickers Filtration Catalog E-FIFI-MC002-E2 December 2007 5Introduction to Eaton Filtration
Filter Element Initial Beta ratios and dirt capacity. Eaton Media Construction
Efficiency The most important Coated Steel Mesh
The international standard for information needed by a Non woven synthetic
diffuser layer
rating the efficiency of a designer or user of a
Proprietary glass
hydraulic or lubrication filter hydraulic system is the micro fiber media with
is the Multipass Filter system cleanliness they can special resin binder
Performance Beta Test (ISO expect when that filter and Non woven synthetic diffuser
16889). The results of this media are properly installed (drainage) layer
test are reported as a ratio of in the system. Coated Steel Mesh
number of particles greater Each grade of Eaton high
than a designated size efficiency filter media
upstream of the test filter construction is thoroughly
compared with the number multipass tested and then
of same size particles rated with the system
downstream of the test filter. cleanliness level expected to
These results are then be achieved with the use of
expressed as a Beta ratio. that product. The
Most Eaton™ filters are assumptions behind these may fail to answer the and gives the filter medium
rated at Beta x(c)=1000. See cleanliness ratings are: 1) the question of how an aged the support it needs to keep
individual filter “Features and filter sees full system flow, element will perform during from failing due to fatigue.
Benefits” for more detail. 2) the filter is the primary the latter part of its service The downstream wire mesh
filter in the system, and 3) life. also serves as a last chance
BETA RATIOS AND air breathers along with protection in case of
CORRESPONDING EFFICIENCIES The best way to deal with
recognized maintenance unexpectedly severe stress
Beta Ratios Efficiency this issue is to look at the
practices will limit dirt that causes element media
construction and feel the
1 0% ingression from the rupture.
element pleats. Are the
2 50.00% atmosphere.
pleats well supported? Do
5 80.00% A major problem in correlating they flex under hand Filter Condition Indicators
10 90.00% multipass test claims to real pressure? Any element that After the filters are placed
20 95.00% world fluid cleanliness levels fails these simple tests will within the system, the next
75 98.00% is that real systems operation fail to maintain efficiency and consideration is how the
100 99.00%
greatly stresses the element. integrity, and will not user is going to know when
In active systems, flow rate maintain the targeted to change the element. The
200 99.50% changes (often several times cleanliness level. answer recommended in
1000 99.90% a minute), pressure pulses DIN 24550 standard is to
5000 99.98% Additionally, look at the pack
(hundreds a minute), have all filters fitted with a
construction. Steel wire
Beta ratios and dirt capacity are only decompression shock differential pressure indicator
mesh is very important in
a guide to system cleanliness needs waves, cold starts and other that gives an easy-to-read
ref. Eaton doc. 561, page 19 element construction. Wire
variables all work to degrade indication that the element
keeps the pleats from flexing
a filter’s performance. In needs to be changed. Eaton
Multipass testing has greatly multipass testing the element
aided engineers in the is subject to one gradual rise LIMITS ON CORRELATION BETWEEN “BETA” AND SYSTEM
development of better and in differential pressure as the CLEANLINESS AND “DIRT CAPACITY” AND SERVICE LIFE
more efficient filter element loads! Laboratory Procedure Real World
elements, and it has helped Flow fatigue test protocol Pressure Rise One gradual rise Thousands of changes
the design engineer who (ISO 3724) leaves many Fatigue Cycles One Millions
needed to specify a filter important questions
element’s performance. But, Element Aging Minutes Months
unanswered. Again the Element Life One hour 800+ hours
there’s little correlation element is tested in laboratory
between multipass Contaminant AC fine test dust Debris, water, gas
conditions that cannot
efficiencies and system duplicate the interaction of Challenge Rate Constant Always changing
cleanliness needs. In the the many forces working to Fluid Used MIL 5606 Wide variety
final performance analysis, stress and degrade the Temperature 100°F (38°C) -20°F to 200°F (-7° to 93°C)
the goal is properly cleaned element. This laboratory test Flow Steady Thousands of changes
fluid and not just very high
6 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 DecemberEATON
2007 Vickers Filtration Catalog E-FIFI-MC002-E2 February 2022 5Introduction to Eaton Filtration
indicators are designed to In poorly supported elements, changes in flow and pressure drop cause the
indicate at a pressure drop sides of element corrugations to flex and the root to stretch, giving rise to fatigue
20% below the bypass stresses. Dirt capacity is also lost as areas of the medium have no flow.
setting which equates to Eaton doc. 561, page 21
95% of the element’s
service life. This indication
before bypass feature was No flow Flow directions
incorporated to allow safe
operation of the machine Deflection under Filter medium
until the next shift change or high flow
convenient maintenance
opportunity.
Element Service Life
High stress under Flow fatigue failure is
As in any aspect of machine high flow conditions commonly at root of pleat.
design or maintenance, cost causes pleat to deform.
of installation and operation
are very important concerns. always use genuine Eaton media structure only, which
For filters, the length of elements because of their can give increased “dirt
time an element lasts in consistent performance capacity” under laboratory
service and the initial cost of and superior strength under conditions, but no increase
that element, combine to stress. in service life is experienced
determine the economics in real systems.
The third issue in long
of using that product.
element service life is the An often overlooked aspect
The most important aspect “dirt capacity” of the of dirt capacity and service
of gaining long element element. This value is life is the effect of element
service life is to minimize the calculated as part of the area. When comparing an
ingression! Reservoirs need multipass efficiency test. element of “x” area with an
to be fitted with vent filters Because of the many element of “2x” area, one
(=3µm) that remove the dirt differences between the test would expect twice the life
before it enters the system. conditions and real system for the larger element. But,
Access port and doors need operation, different dirt in real systems, the life
to be kept sealed so that dirt capacity values do not extension is most often
cannot be drawn into the correlate well to changes in between 2.5 and 3.5 times
system. Cylinder rods that element service life. Dirt as long. This is because the
extend into contamination capacity can only be used to reduced flow density through
laden environments should compare elements under a unit area of media allows for
be shielded to minimize the very specific laboratory more effective contaminant
dirt being drawn into the situations, and as a result capture. Larger elements are
system. published dirt capacity values the most cost effective
The second important aspect should be used as general approach to contamination
to long element service life information rather than control from the perspective
is to keep the cleanliness specific comparable data. of operating costs.
level of the fluid at or below Eaton elements are designed
target. Periods of machine to give long life and reliable
operation with dirty fluid service in hydraulic or
cause accelerated internal lubrication applications.
wear that loads a filter This is achieved with our
element. (It’s important the multi-layer construction.
debris is caught as it saves Each layer provides
the system, but it does cost additional strength or
the element part of its capacity leading to overall
service life.) Always change superior performance. Some
an element on indication and elements focus heavily on
6 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 FebruaryEATON
2022 Vickers Filtration Catalog E-FIFI-MC002-E2 December 2007 7Guide for Selecting Filters
Target Cleanlines that maintenance of the Housing for longer element life.
Using the Vickers Target system will be consistent The selected housing should Some systems require
Cleanliness Worksheet with current technology. be rated within the required filtration with no bypass,
(#578), it is easy to If in operation the system is flow and pressures of the such as servo applications.
determine the target ISO running dirtier than expected, application. Vickers H-Pak media is
Cleanliness Level for a corrective actions should be Important: If the system recommended for non-
system. This target is based initiated. Suggested corrective fluid’s specific gravity (SG) is bypass systems.
on the application’s actions are: greater than 0.9 (for
components and system • Check the indicator to example, water glycol), the Indicator
dynamics. see if the filters are on housing pressure drop (∆P) To meet ANSI Standard
by-pass. should be corrected for 12.2.5, filter assemblies
Placement and Media actual application. should have a device to
• Check the sources of
Use the chart below to help ingression and correct indicate when the filter
select the appropriate filter problems. Specific Gravity requires servicing. Per ANSI
placement and grade of Corrections for Pressure Standard 12.2.6, the
media to acheive the target • Check that the filters are Drops indicator should “trip” at
cleanliness level. For more positioned properly to see approximately 80% of the
maximum fluid flow. The filter housing flow
detail, consult the Eaton curves in this catalog can be bypass pressure setting. If
Guide to Systemic • Consider using a finer adjusted using the following using a non-bypass housing,
Contaminaton Control, Pak grade equation: an indicator selling of
your Vickers representative, approximately 100 psid is
• Add additional filters to Adjusted ∆PHousing =
or the ANSI System recommended. Differential
the system. ∆PCurve x Actual SG ÷ 0.9
Standards for Stationary pressure indicators are rated
Industrial Machinery. 6,000 psi working, 3,500 psi
Note: All systems need a Bypass Valve fatigue.∆
Filter Placement sealed reservoir with vent Bypass valve selection is
The chart below helps port filtration. based upon system
engineers select the grade requirements. According to
of Vickers media and the CAUTION ANSI Standard 12.2.6, filter
filter placement(s) that will assemblies whose elements
Before servicing the
acheive the required target cannot withstand full system
element, the bleed
cleanliness. It assumes the differential pressure without
plug in filter housing
system will experience damage should be equipped
must be loosened to relieve
“average” ingression and with bypass valves.
pressure. This will minimize
Generally, a higher bypass
fluid overflow.
pressure setting will allow
RECOMMENDED RECOMMENDED RECOMMENDED
FILTER PLACEMENT FILTER PLACEMENT FILTER PLACEMENT
TARGET FOR HIGH FOR SYSTEMS WITH FOR HIGH
CLEANLINESS INGRESSION VARIABLE VOLUME INGRESSION
SYSTEMS WITH PUMPS. SYSTEMS WITH
FIXED VOLUME VARIABLE VOLUME
PUMPS. PUMPS.
Full flow pressure Full flow pressure Pressure line/ Pressure line plus Recirculating loop at Recirculating loop at
line or return line line or return line recirculating loop at return line plus 20% of system volume 10% of system volume
20% of system volume recirculating loop per minute per minute
per minute
14/12/10 - 03 03 03 - -
15/13/11 - 03 03 05 - -
16/14/12 03 05 05 05 or 10 03 03
17/15/13 03 05 05 05 or 10 03 03
18/16/14 05 10 05 or 10 10 05 03
16/14/10 05 or 10 10 10 10 05 or 10 05
8 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 DecemberEATON
2007 Vickers Filtration Catalog E-FIFI-MC002-E2 February 2022 7Guide for Selecting Filters
Surge Control H-Pak Construction L-Pak Construction
Surge Control is used on For systems where a bypass The L-Pak is specially
systems where spikes and valve is undesirable, such as designed for lubrication
surges in the hydraulic servo systems, the H-Pak applications. Using the same
system could prematurely media provides high collapse five layer construction as the
trip the indicator. Surge rated housing pressures. C-Pak, the L-Pak also has a
controls slow the indicator H-Pak media construction deep pleat construction to
response. If the indicator utilizes 304 stainless steel maximize element life in
encounters a continuous inner and outer mesh support steady flow, low pulsation
high differential pressure, it along with heavier core systems.
will trip at the rated setting. tubes and media support to
protect the system.
Element
C-Pak Construction
The Vickers element media
grade should be selected C-Pak media uses five
to acheive the Target layer construction. C-Pak
Cleanliness Level. The incorporates epoxy coated
Vickers media construction carbon steel as the two
should be chosen based outer face layers to retain
upon system requirements the inner media pak layers.
such as flow characterstics,
R-Pak Construction
pressure surges and specific
application conditions. The R-Pak spin-on filter
elements are designed for
Important: If the system low clean pressure drop
fluid’s specific gravity (SG) and high efficiency. R-Pak
is greater than 0.9 (for incorporates a five layer
example, water glycol), the media construction with
element pressure drop outer layers of epoxy coated
(∆P) should be corrected. carbon steel wire to retain
the inner media pak layers.
Viscosity Corrections for Pressure Drops
The element flow curves can be adjusted using the following equations:
Adjusted Clean ∆PElement =
Actual viscosity in cP ÷ 29 x ∆PCurve
Actual viscosity in cSt/32 x Actual SG ÷ 0.9 x ∆PCurve
Actual viscosity in SUS/150 x Actual SG ÷ 0.9 x ∆PCurve
A good “rule of thumb”. To ensure satisfactory element life, the clean element pressure
drop should generally be less than or equal to 40 percent of the indicator’s rated differential
pressure:
∆PElement = 0.4 x ∆PIndicator
The best way to extend element service life is to minimize ingression (vents, seals, cylinder
rods) and maintain system cleanliness at or below the Target Cleanliness Level.
8 EATON Vickers Filtration Catalog E-FIFI-MC002-E2 FebruaryEATON
2022 Vickers Filtration Catalog E-FIFI-MC002-E2 December 2007 9Fluid Analysis
Eaton Fluid Analysis Service Critical Analysis Clear Benefits
Eaton hydraulic components have a global reputation Fluid is the lifeblood of every We offer testing designed to
for quality, reliability and performance. That reputation hydraulic power system. To tell you the most about your
keep yours running hydraulic fluid. We use
is built on a tradition of customer service and we
efficiently and effectively, sophisticated computer
stand behind every one of our products. you need to know what’s in programs and laboratory
Our Fluid Analysis Service follows that same tradition. it. What you don’t know can diagnostic equipment such
hurt you. as an Energy Dispersive
We provide our customers with comprehensive fluid
The Eaton Fluid Analysis X-ray Fluorescence and an
testing and diagnostic services, with detailed reports inductively coupled plasma
that are easy to understand. Service analyzes hydraulic
fluid in much the same way spectrophotometer.
To find out how the Eaton Fluid a medical lab tests a blood After we use this advanced
Analysis Service can help your sample. Just as a blood test equipment to provide the
operation, read on. helps a doctor diagnose most detailed possible
health problems, a sample of analysis of your hydraulic
Then call us to hydraulic fluid can help fluid, we create reports that
get started. us pinpoint sources of are always easy to read and
contamination and determine understand. By taking the
whether or not your system mystery out of fluid analysis,
uses adequate filtration. we provide a service that
We can help you reduce clearly explains the benefits
catastrophic equipment of clean fluid.
failures, maintain optimum
A Name You Trust
component performance,
Only one fluid analysis lab lets you put years of Eaton and identify any substandard
experience to work for you. So when the health of maintenance practices. Your
your hydraulic system is at stake, choose a partner bottom-line benefit is
with more than 75 years of experience. Contact your increased productivity.
Eaton representative for more information on our Fluid
Analysis Service.
Comprehensive Testing Viscosity (ASTM D445): and degrades equipment if any, are needed. The lab
We use this test to determine performance. is also capable of testing to
The Eaton Fluid Analysis the viscosity of your oil. the new ISO 4406(1999)
Service is certified to ISO Drawdown Particle
Without proper hydraulic fluid Isolation: Using this test, standard (4µ, 6µ,14µ).
12025 and offers a full range viscosity, your equipment will
of tests specifically designed we determine the insoluble Spectrometric Analysis
suffer. Incorrect viscosity contaminates in hydraulic (ASTM D 5185): This shows
for the analysis of hydraulic leads to fluid breakdown,
and lubrication system fluid. fluids, both insoluble us the concentration of oil-
inefficient equipment particles and gel-like matter, soluble elements and
Our laboratory equipment operation, premature system
and test procedures provide organics and inorganics. indicates the additives and
failure and damage to other Used in conjunction with trace metal content in the
an exact analysis of your components.
hydraulic or oil lubricated photomicrography, the fluids. We use this technique
system, and our drawdown drawdown patch helps us to evaluate the condition
particle isolation procedure identify the source and type of the additives in a fluid
ensures accurate results. of fluid contaminants. rather than its particulate
Automatic Particle Count contamination. Used in
Our testing procedures (ISO 11500): We use a high- conjunction with automatic
can include: intensity laser light source and particle counting, it helps us
a photo sensor to count the accurately assess the
Photomicrography: We cleanliness level of the fluid.
scan and photograph a filter number and size of particles
patch using an optical in the fluid sample and then Energy Dispersive X-ray
microscope to find particle define contaminants Fluorescence (ASTM E
size and type. The scanning according to size distribution 1508): We perform Energy
Water (ASTM E203): We and quantities. Automatic Dispersive X-ray Fluorescence
process verifies the determine the water content
automatic particle count to particle counting is quick, (XRF) analysis on samples
in hydraulic fluid, which helps repeatable and accurate. It with extremely high
identify samples needing us predict quality and
special preparation. This provides reliable information concentrations of particulate
performance characteristics we can use to check against contamination. By isolating
provides confirmation of for the fluid and system
automatic counter results, ISO Standard 4406, which chemical elements, we
components. Excess water defines the relationship pinpoint contaminant types so
and helps us see what reduces the viscosity of
contaminants are in the fluid. between particle counts and we can establish their origins,
hydraulic fluid, which hydraulic fluid cleanliness. and so you can take corrective
increases the likelihood of This lets us determine exactly action.
adverse chemical reactions what corrective actions,
EATON Vickers Filtration
EATON Vickers Filtration Catalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022 119Fluid Analysis
Easy-to-Read Reports 1. Results Target: A results Fluid Test Results
Fluid Results
target compares your
We present your fluid test actual fluid cleanliness 2 5
results in a format that is results and your ideal
easy to understand. Results cleanliness level. If you
typically include these items: don’t have a target level yet,
we can use your sample to
help you determine what
it should be. WATER 15
2. Trend Information: We
evaluate data from your VISCOSITY
previous two samples On-target Re-sample
along with the results of Marginal Immediate action
your current sample. This
provides a trend analysis
of critical measurements, TEST 1 TEST 2 TEST 3
and shows changes in the Time Present Previous #1 Previous #2
fluid over time. Viscosity 45.0 (210) 45.5 (212) 45.8 (213)
@ 100˚F cSt (SUS)
pH (ASTM E 70)
represents the strength of Water 0.03% 0.03% 0.03%
% Weight
Vacuum Pump PN 894279 acidity in hydraulic fluid,
and is usually measured pH 9.4 9.5 9.6
Note: pH is for water containing fluids only.
for water-containing
hydraulic fluids TAN mg KOH/gm 2.1 2.0 2.1
Note: TAN is for synthetic fluids only.
(water/glycols, invert
emulsions). Typical values
are 8.5–10.5. Particle Count Summary
Total Acid Number, or TEST 1 TEST 2 TEST 3
Time Present Previous #1 Previous #2
TAN (ASTM D 974), is the
amount of acid and acid- >2µ 65,120 4,100 418
acting material constituents >5µ 12,220 1,250 88
in hydraulic fluid. An >10µ 5,800 700 39
increase in TAN indicates >15µ 900 250 22
oxidation or acid >25µ 125 60 4
contamination. Some >50µ 12.0 5.0 1.0
hydraulic fluids exhibit
higher acid numbers than Cleanliness 23/21/17 19/17/15 16/14/12
Code
others. Typical values are
0.1–3.0.
KIT FEATURES
Photo Energy
Automatic Microscopy Dispersive Spectrographic
Particle Water Viscosity Drawdown XRF ASTM Analysis
Kit Count ASTM TAN/PH ASTM Particle E1508 ASTM
Part # ISO 11500 E203 (if applicable) D445 Isolation (if applicable) D5185
894276P • • • • • •
894277P • • • • • • •
Each kit includes:
• Super clean sample bottle
• Packaging for sending sample
• Numbered test sample data form
• Fluid analysis service
Also available is PN 894279, Vacuum Pump for extracting oil sample, and PN 932339, Ultra Clean Bottle.
Items not in bold are non-standard and may have a longer lead time
12
10 EATON Vickers
EATON Vickers Filtration
FiltrationCatalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022Fluid Analysis Range Code
Cleanliness Code Graph
300,000
25 200,000
100,000 150,000
24 100.000
80,000
3. Cleanliness Code Graph: 23 50,000
This graph uses the ISO 40,000 40,000
22 30,000
4406 standard for 20,000 20,000
measuring and depicting 21 15,000
10,000 10,000
the amount and size of 20
particles per milliliter in 5,000 5,000
4,000
hydraulic fluid, shown in a 19 3,000
2,500 2,000
log-log2 graph that charts 18 1,500
the amount of particles 1,000 1,000
17
greater than certain micron 500
Number of particles greater than size per mililiter
500
sizes per milliliter of fluid. 16 400
250 300
Recommendations: This 15 200
100 150
section of the report 14 100
provides you with valuable 80 50
information on the 13 40
40 30
cleanliness of your 12 20
20
hydraulic system, as well 11
10
as tips on maintaining or 10 10
improving its current 10
5 5
condition. 9 4
3
2.5 2
8 1.5
1.5 1.0
7
1 .5
6 .4
.5 .3
5 .2
.15 .01
4 .1
.08
3
.04
2
.02
1 .01
1 4 6 10 14 20 25 30 35 40 45 50
20/14/12 Particle size in micrometers
Cleanliness code
Sample XRF Analysis 100
Results
When a fluid sample shows 90
high particulate 80
contamination, we use
Energy Dispersive X-ray 70
Fluorescence (XRF) analysis 60
to isolate and identify
Percent
chemical elements. The 50 47.8%
results are shown in a graph
40
like this.
30 24.7%
20
13.9%
10 9.0%
4.6%
0
Ca P S Fe Zn
Element
EATON Vickers Filtration
EATON Vickers Filtration Catalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022 13
11Breathers
Hydraulic reservoirs “breathe” air in and out as the oil level rises and falls.
This circulating air contains particles and moisture that can cause
corrosion, increase equipment wear and reduce fluid performance. In
typical systems, the internal hydraulic fluid is warmer than the
external environment. This difference in temperatures causes
water vapor to form. Breathers protect your hydraulic
system by filtering out damaging moisture and particles.
More than 25% of the samples sent to the Eaton Fluid
Analysis Laboratory for analysis have significant water
contamination. In an operating system, the H20-gate
Vent Breather creates a moisture barrier when there
is a 5°F (2°C) difference between reservoir and
ambient temperature and when there is a 10%
per minute exchange of air volume above the
fluid. The Mobile-gate breather is smaller in
size but is also 1/4 the size and 1/2 the capacity
of the H20-gate. These temperature and air flow
conditions are present in most hydraulic systems
which employ a cylinder.
Part Numbers:
NPT Mobile-gate MBR110
Flange Mobile-gate MBR120
H20-gate BR110
Dirt-gate BR210
Performs as a gate Works even when the Reduces humidity inside
During the “inhalation” cycle, system is shut down. reservoir.
the proprietary media blocks The H20-gate and Mobile- The H20-gate and Mobile-
the water vapor from entering gate Vent Breather retard the gate Vent Breathers lower
the reservoir. During the vapor equilibrium process and stabilize the relative
“exhalation” cycle, the media and work to prevent humidity of air inside the
allows the moisture in the condensation even after the reservoir, leading to a lower
reservoir air to exit. The system is shut and cooled dewpoint (Tdewpoint <
moisture is carried off the down, such as overnight. As Tambient = NO
media by the exiting air, this chart illustrates, the CONDENSATION) at a rate
restoring the media’s water dewpoint is slow to climb, and amount that will be
barrier capacity and the even after the system dependent upon several
moisture barrier mechanism is temperature has dropped to conditions: the ambient
not affected by the amount of the ambient temperature. conditions, the internal
exposure to moisture. The Once the system has reservoir heat, amount and
reservoir air is maintained at a reached ambient frequency of reservoir air
low relative humidity and temperature, condensation flow through the vent and
more importantly, at a lower does not occur. the temperature of the
dew point temperature than reservoir surfaces.
the ambient temperature.
BREATHER FEATURES
H2O-gate Dirt-gate Mobile-gate
Visual Indicator • • •
Particle Control • • •
Water/Moisture Control • •
Corrosion Resistant Housing • • •
Flow Rate 708 L/min 708 L/min 473 L/min
(187 USgpm) (187 USgpm) (125 USgpm)
16
12 EATON Vickers
EATON Vickers Filtration
FiltrationCatalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022Breathers
H2O-gate™ Reservoir Breather
Features/Benefits: • Media contains oil Part Numbers:
• Visual Mechanical attractant layer to collect
and return oil splashes. H20-gate BR110
Indicator: Actuates when
Bayonet Adapter 924710
particles have blocked the • Easy Installation:
media, before the pump Lightweight design can Screw-in Adapter P-077002
cavitates. be hand tightened onto
• Proprietary Media: adapter.
Reduces dew point • Durable Plastic Housing:
temperature to prevent Protects the media from
condensation and is external splashing.
99.7% efficient in blocking • Superior breather filters
particles 3µ and larger. both moisture and
• Reversible Flow Through particles from air.
Media: Allows for • Effective up to 121°C
moisture to exit the (250°F)
reservoir.
• Rated up to 25 SCFM
Dirt-gate™ Reservoir Breather
Features/Benefits: Part Numbers:
• Visual Mechanical • Durable Plastic Housing: Dirt-gate BR210
Indicator: Actuates when Protects the media from
particles have blocked the external splashing. Bayonet Adapter 924710
media, before the pump Screw-in Adapter P-077002
• High Efficiency:
cavitates. (99% at 2 microns)
• Easy Installation: • Very Low Pressure Drop Note:
Lightweight design can
be hand tightened onto • Filters out particles This breather does not filter
adapter. moisture from air.
• Effective up to 121°C
(250°F)
• Rated up to 25 SCFM
Mobile-gate™ Filler Breather Assemblies
Features/Benefits: Part Number
• Proprietary Media: • Reversible Flow Through MBR110 5002486
Reduces dew point Media: Allows for MBR120 5002487
temperature to prevent moisture to exit the
condensation and is reservoir.
99.7% efficient in • Easy Installation:
blocking particles 10µ Lightweight design can be
and larger. hand tightened.
• Water Barrier: • Rugged metal housing is
Regenerates its water long lasting and ideal for
shedding capacity with mobile applications.
each cycle.
• Rated to 16.7 SCFM
MBR120
MBR110
Items not in bold are non-standard and may have a longer lead time
EATON Vickers Filtration
EATON Vickers Filtration Catalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022 17
13Breathers
H2O-gate Specifications Dirt-gate Specifications
19 19
133,4 (.75) 133,4
(5.25) (.75)
(5.25)
105
(4.13)
184,2 12
(7.25) (.47)
12
(.47)
1.5 UN Straight Thread
1.5 UN Straight Thread
H2O-gate Pressure Drop Dirt-gate Pressure Drop
Fluid Displacement L/min (USgal) Fluid Displacement L/min (USgal)
283 850 1416 1982 2406 283 850 1416 1982 2406
(75) (225) (375) (525) (675) .0075 (75) (225) (375) (524) (636) .0075
3.0 3.0 (.108)
(.108)
2.7 2.7
2.2 2.2
Inches of water
.005
Inches of water
2.0 .005 2.0
(.073) (.073)
bar (psi)
bar (psi)
1.7 1.7
1.2 1.2
1.0 .0025 1.0 .0025
(.036) (.036)
0.7 0.7
0.2 0.2
0 10 20 30 40 50 60 70 80 90 0 10 20 30 40 50 60 70 80 90
Air Flow, SCFM Air Flow, SCFM
Mobile-gate Specifications
PART NUMBER FLOW DIMENSIONS (in)
USgpm L/min D1 D2 D3 D4 H1 H2 T1
MBR110 125 475 3.08 - - 2.33 0.63 NPT 3/4
MBR120 125 475 3.08 1.88 - 2.50 3.50 -
MBR120 FLANGE - - - - 0.25 2.81 - - -
D1 D1
H1 H1 D3
D4
H2
H2 T1
D2
18
14 EATON Vickers Filtration
EATON Vickers Filtration Catalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022Breathers
Adapters
Installation Dimensions
Threaded Pipe Adaptor Bayonet Adaptor
82,6
(3.25)
21,7
(.853) 25,4
19,1 (1.00)
(.750) Vent Filter
O-ring 11/4 NPT
Bayonet Adaptor
11/2-16 UN
Standard Mounting
Flange of a reservoir
filler/breather
assembly
MODELS AND PART NUMBERS
Part Number Description Vent Filters Applicable
924710 Bayonet, no check BR110, BR210
P-077002 Threaded pipe BR110, BR210
All Eaton Vent Filters are easily applied
to reservoirs via Spin-On adaptors.
EATON Vickers
EATON Vickers Filtration
FiltrationCatalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022 19
15Return Line Filters
General Data
Return line filters usually have spin-on type elements, Return line filters may also be equipped with fluid
cartridge elements in an in-line mounted housing, or sampling devices to monitor the fluid cleanliness
cartridge elements within a housing that is mounted level. Secondary ports may also be incorporated to
directly within the reservoir itself (sometimes referred add make-up fluid and ensure that the fluid is
to as an in-tank filter). transferred through a filter before entering the system.
Return line filters are:
• An integral part of an • A crucial component
effective contamination when cylinders are
control solution. present in the system.
• Ideal for systems where Cylinders potentially
the pump is the sensitive contribute a large amount
component. of contamination
ingression and return line
• An economic means filters are ideal for this
of achieving the target type of control solution.
cleanliness level.
• Sometimes the only filters
• Often placed before the necessary (combined with
fluid enters the reservoir a breather) when seeing
in order to prevent debris the entire system flow on
and particles from a continuous basis.
recirculating through the
system. • Only a part of an effective
contamination control
solution when the
system employs variable
displacement pumps.
Filters in systems like this
may be supplemented by
pressure and/or off-line
filters.
Applications
• Stroke boom delimbers
• Drilling platforms
• Die cast machines/
injection molding
• Large machine tools
Items not in bold are non-standard and may have a longer lead time
20
16 EATON Vickers
EATON Vickers Filtration
FiltrationCatalog
Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2 December 2007
February 2022Return Line Flows to 280 L/min (75 USgpm)
Pressures to 50 bar (725 psi)
Filters
HV3R Series
Features and Benefits DESIGN SPECIFICATIONS
• Beta Ratio: βx(c) = 1000 Rated flow: Length 1 160 L/min (42 USgpm)
to ISO 16889 Length 2 240 L/min (63 USgpm)
Length 4 280 L/min (74 USgpm)
• Designed to comply with Fluid compatibility: Compatible with most petroleum oil, oil-in-water and water-in-oil fluids
ANSI specifications and Optional seals available for phosphate esters.
ISO cleanliness standards Temp range: -30°C to 121°C (-22°F to 250°F)
• Visual and electrical Pressure rating: Operating 50 bar (725 psi)
indicators with lamp Fatigue 50 bar (725 psi)
options for system design Material: Head Aluminum
flexibility Bowl Carbon Steel
• Fully serviceable without Collar Carbon Steel
tools Dry weight: Length 1 2,3 kg (5.1 lbs)
• Zero leak by-pass valve (Approximate) Length 2 2,5 kg (5.5 lbs)
Length 4 3,4 kg (7.5 lbs)
construction
• Wide range of element
lengths for maximum
design flexibility
• High efficiency
replacement elements in
standard configurations
(C-Pak) to meet Target
Cleanliness Levels HV3R * ** * ** * * * **
• High collapse elements
available for non-bypass 1 2 3 4 5 6 7 8 9
applications
HV3R Series 1 Filter Series - HV3R QH - Electrical 1 bar (15 psi) UH - Electrical 4.9 bar (70 psi)
Filter and Element Hirschmann Hirschmann
Model Code 2 Element Collapse Rating
LN - Visual (30 psi)
No Connector 6 Seal Material
1 - 17 bar (250 psi) Low Collapse RB - Electrical 2 bar (30 psi) B - Buna-N
Sample model code: 4 - 207 bar (3000 psi) High Brad Harrison V - Viton-A
Collapse RJ - Electrical 2 bar (30 psi)
HV3R1SC4RLB2C05 Viton is a registered trademark of E.I. DuPont
Hirschmann w 24 volt
3 Port Options light 7 Assembly Length
BC - G 1-1/4 to ISO 228 RK - Electrical 2 bar (30 psi) mm (inch)
SC - 1.625 - 12UN SAE-20 str. Hirschmann w 115 volt 1 - 207 (8.15)
Thd. (1-1/4" tube) light 2 - 266 (10.47)
RL - Electrical 2 bar (30 psi) 4 - 447 (17.6)
4 Valve Options Hirschmann w 230 volt
1- Non-Bypass light 8 Element Construction
3- Bypass set at 1.7 bar (25 psi) RH - Electrical 2 bar (30 psi) C - 17 bar (250 psi) Low Collapse
4- Bypass set at 3 bar (43 psi) Hirschmann H - 207 bar (3000 psi) High
6- Bypass set at 6 bar (87 psi) AN - Visual (70 psi) Collapse
No Connector X - no element
5 Indicator Options UB - Electrical 4.9 bar (70 psi)
JN - No Indicator (plug), Brad Harrison 9 Fluid Cleanliness Rating
No Connector UJ - Electrical 4.9 bar (70 psi) Target fluid
QB - Electrical 1 bar (15 psi) Hirschmann w 24 volt Code cleanliness level
Brad Harrison light *03 16/14/12 or better
QJ - Electrical 1 bar (15 psi) UK - Electrical 4.9 bar (70 psi) *05 18/16/14 or better
Hirschmann w 24V light Hirschmann w 115 volt
light *10 20/18/15 or better
QK - Electrical 1 bar (15 psi)
Hirschmann w 115V light UL - Electrical 4.9 bar (70 psi) *20 22/19/16 or better
QL - Electrical 1 bar (15 psi) Hirshman w 230 volt light XX no element
Hirschmann w 230V light
EATON
EATON Vickers
Vickers Filtration Catalog E-FIFI-MC002-E2
Filtration Catalog E-FIFI-MC002-E2December 2007
February 2022 21
17Return Line Flows to 280 L/min (75 USgpm)
Pressures to 50 bar (725 psi)
Filters
HV3R Series
V3R * * * **
1 2 3 4 5
V3R Element 1Filter Element 3 Element Length 5 Fluid Cleanliness Rating
Model Code V3R - For use with HV3R mm (inch) Target fluid
series housings 1 - 114 (4.5) Code cleanliness level
Sample model code: 2 - 173 (6.8) *03 16/14/12 or better
2 Seal Material 4 - 356 (14) *05 18/16/14 or better
V3RB1C05
B - Buna-N *10 20/18/15 or better
V - Viton-A 4 Element Construction
*20 22/19/16 or better
C - C-Pak (code 03, 05, 10, 20)
H - H-Pak (code 03, 05, 10) * C - Pak only
Housing Dimensions Mounting Holes
3/8 - 24 X 14 (0.56) deep with SC (SAE-20) port option
mm (inch)
M10 with BC (G 1-1/4) port option
56
(2.2)
ø130
7.4 (5.12) Indicator Plug
(0.29)
Label
46.4
(1.83)
1 5/8-12UNF in. or G 1 1/4 port
SAE-20 port
2 PL'S
Refer to
Model Code
ø82.5
(3.25)
50.0 (1.97) ø125
Clearance for (4.92)
Element Removal
Items not in bold are non-standard and may have a longer lead time
22
18 EATON
EATON Vickers Filtration Catalog
Vickers Filtration Catalog E-FIFI-MC002-E2
E-FIFI-MC002-E2December 2007
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