Parker D1FB EE, D1FB EEXG371, Design 18 Operating Instructions Manual

Bulletin MSG11-5715-704/UK

Operating instructions
Series D1FB*EE

Design series 18

II 2 G c T4 Gb

-20 °C ≤ Ta ≤ +40 °C
D1FB*EEXG371:

-20 °C ≤ Ta ≤ +60 °C

Direct Operated
Proportional DC Valve

Parker Hannifin
Manufacturing Germany GmbH & Co. KG

Industrial Systems Division Europe
Gutenbergstr. 38
41564 Kaarst, Germany
Tel.: (+49) 181 99 44 43 0
E-mail: valvesisde@parker.com
Copyright © 2018, Parker Hannifin Corp.

Operating Instructions

WARNING - USER RESPONSIBILITY

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS DESCRIBED
HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND PROPERTY
DAMAGE.

This document and other information from Parker-Hannifin Corporation, its subsidiaries and
authorized distributors provide product or system options for further investigation by users having
technical expertise.

The user, through its own analysis and testing, is solely responsible for making the final selection
of the system and components and assuring that all performance, endurance, maintenance,
safety and warning requirements of the application are met. The user must analyze all aspects
of the application, follow applicable industry standards, and follow the information concerning
the product in the current product catalog and in any other materials provided from Parker or its
subsidiaries or authorized distributors.

To the extent that Parker or its subsidiaries or authorized distributors provide component or
system options based upon data or specifications provided by the user, the user is responsible for
determining that such data and specifications are suitable and sufficient for all applications and
reasonably foreseeable uses of the components or systems.

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Direct Operated Proportional DC Valve

Operating Instructions

Contents Page

0. EC declaration of conformity 4

1. Introduction 8

Ordering code 9

Technical data 11

Characteristic curves 12

Dimensions 14

Name plate 15

2. Safety instructions 15

Symbols 15

Marking, name plates 15

Work on the valve 15

3. Important information 16

Correct use 16

Common instructions 16

Liability 16

Storage 16

4. Installation 17

Scope of delivery 17

Installation 17

Electrical connection 18

Operation limits 18

Pressure fluids 18

5. Operating instructions 19

Electronic control system 19

Air bleeding of hydraulic system 19

Filter 19

Flushing 19

6. Maintenance 19

Replacement of a coil 19

7. Troubleshooting 21

A1 Extract from standards/directives 21

A2 User guide – Solenoid 23

A3 Type-examination certificate – Solenoid 25

A4 Declaration of conformity - Solenoid 39

A5 Mounting instruction cable gland 40

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Operating Instructions

0. EC declarations of conformity

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

4

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

5

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

6

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Operating Instructions

a 0 b

A B

PT

AB

1. Introduction

The D1FB*EE series with explosion proof solenoids
is based on the standard D1FB series. The specific
solenoid design allows the usage in hazardous
environments. The explosion proof class is

Ex e mb IIC T4 Gb

for use in zone 1 and 2 (conform to ATEX).

Additionally the solenoids are IECEx compliant.

The parameters can be saved, changed and dupli­cated in combination with the digital power amplifier
PWD00A-400 (to be used in an explosion proof
cabinet or outside of the hazardous area).

The valve parameters can be edited with the com­mon ProPxD software.

The D1FB valves can be ordered with spool/sleeve
design (D1FB*0) for maximum precision as well
as spool/body design (D1FB*3) for high nominal
flow - see functional limit curves for maximum
flow capability.

Features

• Spool/sleeve and spool/body

• High repeatability from valve to valve

• Low hysteresis

• Manual override

• Optional: coil to permit ambient temperature up
to +60 °C modification XG371

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB*0*EE

Spool/sleeve design

D1FB-EE 5715-704UK 07.01.19

D1FB*3*EE

Spool/body design

8

Parker Hannifin Corporation

Direct Operated Proportional DC Valve

Operating Instructions

Technical data

General

Design Direct operated proportional DC valve
Actuation Proportional solenoid
Size
Mounting interface DIN 24340 / ISO 4401 / CETOP RP121 / NFPA
Mounting position unrestricted
Ambient temperature [°C] -20...+40; XG371: -20...+60
MTTFD value [years] 150
Weight [kg] 3.5 (2 solenoids), 2.5 (1 solenoid)

Hydraulic

Max. operating pressure [bar] Ports P, A, B 350; Port T 210
Max. pressure drop PABT / PBAT [bar] 350
Fluid Hydraulic oil as per DIN 51524...535, other on request
Fluid temperature
Viscosity
permitted [cSt] /
recommended [cSt] /
Filtration ISO 4406 (1999) ; 18/16/13
Nominal flow at ∆p=5 bar
per control edge *
Leakage at 100 bar [ml/min] <50 <60
Overlap [%] 25, electrically normalized at 10 (see flow characteristics)

Static / Dynamic

Step response at 100 % step [ms] 30 30
Hysteresis [%] <4 <6
Temperature drift solenoid current [%/K] <0.02

Electrical characteristics

Duty ratio [%] 100
Protection class
Solenoid
Supply voltage [V] 24 24 12
Current consumption [A] 1.15 1.0 2.3
Resistance [Ohm] 12.0 12.0 3.0

Solenoid connection

Wiring min. [mm²] 3 x 1.5 recommended
Wiring length max. [m] 50 recommended

With electrical connections the protective conductor (PE W) must be connected according to the relevant regulations.

NG06/CETOP 03/NFPA D03

[°C] -20...+40; XG371: -20...+60

[mm2/s]

20...400

[mm2/s]

30...80

[l/min] 6 / 12 / 20 10 / 20 / 30

D1FB*0*EE (Spool/sleeve) D1FB*3*EE (Spool/body)

Box with M20x1.5 entry for cableglands. Solenoid identifications per ISO

9461.

Series D1FB*EE Explosion Proof

, Ex e mb IIC T4 Gb, IP66 (plugged and mounted correctly)

J J*XG371 K

* Flow rate for different ∆p per control edge: Qx = Q

 ∆p

D1FB-EE 5715-704UK 07.01.19

Nom.

·

 ∆p

√

9

x

Nom.

Parker Hannifin Corporation

Operating Instructions

Ordering code

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

Directional

control

valve

D1FB*0*EE: Spool/sleeve design

Code Spool type

E01C
E01F
E01H

E02C
E02F
E02H

E03C
E03F
E03H

QB = QA /2

B31F
B31H

QB = QA /2

B32F
B32H

D1FB*3*EE: Spool/body design

Code Spool type

E01F
E01H
E01K
E02F
E02H
E02K

QB = QA /2

B31F
B31H
B31K

QB = QA /2

B32F
B32H
B32K

per metering edge

per metering edge

DIN NG06
CETOP 03
NFPA D03

Flow [l/min]
at ∆p 5 bar

6

12

20

6

12

20

6

12

20

12 / 6

20 / 10

12 / 6

20 / 10

Flow [l/min]
at ∆p 5 bar

10
20
30
10
20
30

10 / 15
20 / 10
30 / 15

10 / 15
20 / 10
30 / 15

1 F B 0D

Size

Proportional

control

Standard
dynamics

standard

repeatability

Spool Spool position

N

Seals

NBR

(other seal
compounds
on request)

Code Spool position

C

E

K



D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Operating Instructions

E EE

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

Explosion

proof

DesignSolenoid

Design series

(not required for

ordering)

Connection

Explosion proof

with cable glands

Ex e mb IIC T4 Gb

+ IECEx conformity

Modification

XG371

Code Modification

omit Standard

Coil to permit ambient

temperature up to +60 °C

Code Design

0 Spool/sleeve design

3 Spool/body design

Code Solenoid

K 12 V / 2.3 A

J 24 V / 1.15 A

J*XG371 24 V / 1.0 A

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Direct Operated Proportional DC Valve

Flow Q [% of nominal flow]

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type B*

Command signal [%]

P-B

A-T

P-A

B-T

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type B*

P-B

A-T

P-A

B-T

Flow Q [% of nominal flow]

Command signal [%]

Flow Q [% of nominal flow]

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type E*

P-B
A-T

P-A
B-T

Command signal [%]

Flow Q [% of nominal flow]

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type E*

P-B
A-T

P-A
B-T

Command signal [%]

Flow Q [l/min]

Pressure drop p [bar]

P–T

40

350

Operating Instructions

Flow characteristics

at ∆p = 5 bar per metering edge

D1FB*0*EE D1FB*0*EEXG371

Series D1FB*EE Explosion Proof

Functional limits

at 25 %, 50 %, 75 % and 100 % command signal
(symmetric flow)

At asymmetric flow a reduced flow limit has to be
considered – typically approx. 10 % lower.

Spool type E01H Spool type E01H*XG371

30

20

10

12

0

0

All characteristic curves measured with HLP46 at 50 °C.

D1FB-EE 5715-704UK 07.01.19

AB

PT

100 %

75 %

50 %

25 %

30025020015010050

Parker Hannifin Corporation

Operating Instructions

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type E*

P-B
A-T

P-A
B-T

Command signal [%]

Flow Q [% of nominal flow]

Flow Q [% of nominal flow]

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type E*

Command signal [%]

P-A
B-T

P-B
A-T

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type B*

Command signal [%]

Flow Q [% of nominal flow]

P-B

A-T

B-T

P-A

Flow Q [% of nominal flow]

100 -80 -60 -40 -20 0 20 40 60 80 100

100

75

50

25

0

Spool type B*

Command signal [%]

P-B

A-T

B-T

P-A

Flow Q [l/min]



P–T

40

350

Flow characteristics

at ∆p = 5 bar per metering edge

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB*3*EE

Functional limits

at 25 %, 50 %, 75 % and 100 % command signal
(symmetric flow)

D1FB*3*EEXG371

At asymmetric flow a reduced flow limit has to be
considered – typically approx. 10 % lower.

Spool type E01K Spool type E01K*XG371

All characteristic curves measured with HLP46 at 50 °C.

D1FB-EE 5715-704UK 07.01.19

AB

30

20

10

0

0

13

100 %

75 %

50 %
25 %

Pressure drop p [bar]

Parker Hannifin Corporation

PT

30025020015010050

Operating Instructions

Dimensions
D1FB*C*EE

D1FB*K*EE

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB*E*EE

Surface finish

D1FB-EE 5715-704UK 07.01.19

BK375

4x M5x30

ISO 4762-12.9

14

7.6 Nm
±15 %

NBR

SK-D1FB

Parker Hannifin Corporation

Operating Instructions

Name plate

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

Manufacturer's logo and address

CE mark, Ex protection symbol and explosion protection class
of the complete valve to European Directive 2014/34/EU

Entire name of the complete valve

Hydraulic data

Code for year and month of manufacture

Hydraulic symbol

2. Safety instructions

Read the operating instructions thoroughly before
installation, commissioning, maintenance, repair and
storage, and observe them. Failure to observe the
operating instructions may result in damage to the
valve or the parts of the system connected to it.

In particular, in the case of explosive atmospheres,
any failure to observe the operating instructions
may result in an explosion.

The system operator must make these operating
instructions visible and easily accessible to opera­ting and maintenance personnel.

Compliance with applicable standards/legal requi­rements must be enforced. This particularly applies
to plant safety and environmental protection.

A list of such standards, etc. appears in the annex
by way of example.

Before starting commissioning, installation, main­tenance and repair work, the hydraulic system must
be depressurised and power must be disconnected
from the electrical installation.

In addition, the electrical installation must be secured
so that power cannot be restored unexpectedly.

The valve may become hot during operation. To
avoid risk of burns, do not touch the valve surface.

The system operator must monitor the temperature
and cool the oil if necessary in order to the keep
within the maximum temperatures set out in these
operating instructions (see technical data). In this
connection, observe the relevant directions in the
operating instructions of the supplier (solenoid
system).

Any leaks occurring at the valve must be rectified
immediately.

D1FB-EE 5715-704UK 07.01.19

Symbols

These instructions use symbols that must be noted
according to their importance:

Notes relating to the warranty

Notes relating to potential damage to the

valve or connected system components

Notes relating to potential hazards

Useful additional information

Marking, name plates

Information attached directly to the valve such as
circuit plans and Name plates must be observed
and kept in a legible state.

Work on the valve

Work relating to the installation, commissioning,
maintenance and repair of the valve may only be
carried out by qualified persons. Qualified persons
are defined as persons who, on the basis of edu­cation, experience and instruction, have sufficient
knowledge of applicable requirements and ac­cepted rules of the technology.

Throughout any installation, commissioning, main­tenance and repair work, it is the responsibility of
the operator to ensure that there is no risk of ex­plosion.

Before starting such work, the operator has to
ensure that tools and equipment are only used if
they do not damage the valve and they do not
leave behind residues that are inflammable.

In addition, clean the valve before starting such work,
in particular removing dust, liquids and other depo­sits. Cleaning should be done using a lint-free cloth.

Tools may not be used if they might cause a static
charge on use.

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Parker Hannifin Corporation

Operating Instructions

3. Important information

Correct use

These operating instructions apply to direct

operated proportional DC valves of series
D1FB*EE, which are intended solely for
use in mineral oil based hydraulic systems
(DIN 51524).

Compliance with the operating instructions must
be ensured.

It is the responsibility of the operator to ensure that
the information in the technical data is followed.

Any different or modified use is not classed as
correct use.

The manufacturer's warranty will not cover any
resulting damage.

Common instructions

We reserve the right to make technical changes as
a result of further development of the product de­scribed in these operating instructions. Figures and
drawings in these instructions are simplified depic­tions. As a result of further development, improve­ments and changes to the product, it is possible
that the figures are not fully consistent with the
described valve.

The technical details and dimensions are non­binding. They may not form the basis of any claims.
Copyright reserved.

Liability

The manufacturer cannot accept liability for loss or
damage resulting from the following faults:

• incorrect installation

• unqualified operation

• inadequate maintenance

• use beyond specification

Do not dismantle the valve. If you suspect a

defect, return the valve to Parker.

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

Storage

If the valve needs to be temporarily stored, it must
be protected from dirt, the weather, and mechani­cal damage. Each valve is tested with hydraulic oil
in the factory, so that the internal components are
protected from corrosion. However, this protection
can only be guaranteed under the following condi­tions:

Storage time Storage requirements
12 months constant air humidity < 60 %

constant temperature < 25 °C

6 months varying air humidity,

varying temperature < 35 °C

Storage outside or in maritime or tropical

climates leads to corrosion and may make
the valve unusable.

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

4. Installation

Scope of delivery

As soon as you receive the valve you should check
if the package has the specified contents. In par­ticular, check whether the type of protection indi­cated on the valve is as described in these operat­ing instructions.

The scope of delivery includes:

• Valve

• Operating instructions (including operating in­structions of the valve as well as of the solenoid
and the declarations of conformity of the
manufactures)

As soon as you receive the shipment,

please check for any obvious signs of dam­age caused by careless transport. Docu­ment the transport damage and immediate­ly notify the carrier, the insurance company
and the supplier.

Installation

• Compare the valve type as stated on the Name
plate with the parts list/circuit diagram.

• The valve can be installed in any position, ei­ther fixed or movable.

Check the fixing surface and the cavity for

the valve. Permitted values: unevenness

0.01 mm/100 mm, roughness Rmax = 6.3
μm. Keep the valve mounting surface and
the area clean.

• Before installation, remove the protective cov­er from the valve ports.

• Check that the valve ports and the O-rings are
in the correct position.

• Use fastening screws as indicated in the cata­logue, property class 12.9 to ISO 4762.

Parker can supply the correct screw sets,

see the catalogue for order numbers.

• Tighten the screws diagonally, torque as speci­fied in the catalogue.

• Any deficiencies of the valve mounting surface
may result in operating disruptions. Faulty fix­ing and incorrect screw tightening torques may
lead to the sudden escape of hydraulic fluid at
the ports.

The valve must be connected to the equipotential
bonding system of the hydraulic system.

Size 6, mounting pattern ISO 4401-03-03-0-05

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Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

Electrical connection

Observe operating instruction D14-2114PD-* in the
annex.

Operation limits

The valve may only be deployed with the specified
limits of use. The relevant details can be found in
the catalogue sheet under "Technical data" and
"Characteristic curves".

Observe the ambient conditions. Unauthor-

ised temperatures, shocks, the effects of
aggressive chemicals, radiation, unauthor­ised electromagnetic emissions may result
in disruptions and failures. Observe the
limits of operation set out in "Technical data".

Excessive temperatures may cause the

solenoid to overheat, creating the risk of
explosion. To permit adequate heat dissipa­tion, the solenoid coil should not be painted.

Pressure fluids

The following rules applies for the operation with
various pressure fluids:

This information serves for orientation and

does not substitute user tests among the
particular operating conditions. Particularly
no liabiliy for media compatibility may be
derived out of it.

Mineral oil: usable without restriction.

For operation with the following pressure fluids
please consult Parker:

HFA oil-in-water emulsion

HFB water-in-oil emulsion

HFC aqueous solution (glycols)

HFD unhydrous fluids (Phosphor-Ester)

For detailed information concerning pressure

fluids note VDMA-document 24317 as well
as DIN 51524 & 51502.

Special gaskets may be available depending on
the utilized fluid.
In case of insecurity please consult Parker.

The pressure fluid must have an ignition tempera­ture of at least 50 K above the maximum surface
temperature of the valve (see EN 13463-5 and IEC
60079-4).

D1FB-EE 5715-704UK 07.01.19

18

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

5. Operating instructions

Electronic control system

The valve must be operated by a suitable electronic
control system.

The appropriate electronic control system

can be selected from the catalogue ("Elec­tronics" section). Please ask the factory. if
further guidance is required. Connecting to
an unsuitable electronic control system may
result in irreparable damage to the valve or
the electronic control system.

If you are using the Parker PCD00A-400

digital module, make sure that the module
runs outside the Ex area or inside an electri­cal cabinet certified for use in the Ex zone.

Air bleeding of hydraulic system

During initial startup, after an oil change as well as
after the opening of lines or valves the hydraulic
system must be air bleeded.

Filter

The function and lifetime of the valve are strongly
affected by the cleanliness of the fluid.

Purity level class of 18/16/13 acc. ISO4406 is
required.

Pay attention to maintenance details!

Flushing

It is recommended to flush the pipelines by short
circuiting the pressure and return lines. This prevents
the installation dirt from entering the valve.

6. Maintenance

Maintenance procedures may only be car-

ried out by specialist personnel. A detailed
knowledge is required of how the machine
is switched on and off and also of the neces­sary safety measures.

Regular maintenance is essential in prolonging the
service life of the systems, and safeguards plant
safety and operational availability. The following
items must be checked at regular and short intervals:

• Oil level in tank

• Max. medium temperature

• Max. surface temperature

• Condition of the pressure fluid (sight check,
colour and smell of hydraulic fluid)

• Operating pressures

• Preload pressure of pressure vessel (if present)

• No leaks at any system components

• Condition of the filter elements

• Condition of the hose lines

• Cleanliness of components

After a certain period of service, the hydraulic fluid
must be replaced. The frequency of the change
depends on the following circumstances:

• Type and grade of pressure fluid (ageing)

• Filtration

• Operating temperature and ambient conditions

Replacement of a coil

In case of a necessary replacement of a coil the
disassembly and assembly instructions on dra­wing 35015707 (see next page) have to be ob­served. Before exchanging a coil the name plates
of old and new coil have to be checked. It must
be ensured that only coils with identical voltages
are used.

Available coil kits are:

AK-D1FBCJEE318
AK-D1FBCKEE318
AK-D1FBCJEE318-XG371
AK-D1FBCKEE318-XG371

D1FB-EE 5715-704UK 07.01.19

The coils of series 18 are suitable for valves of
series 17 and 18.

19

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

20

Parker Hannifin Corporation

Operating Instructions

7. Troubleshooting

A systematic approach must always be used in the
troubleshooting process. Begin by answering the
following questions:

• Does anyone have practical experience of
similar faults?

• Have any of the settings been changed in the
system?

Now try to identify the fault using a prioritised list
of the most likely causes.

• If you suspect that the valve is not moving
freely, you should flush the valve with clean
pressure fluid.

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

• A systematic approach should always be
adopted when troubleshooting a hydraulic sys­tem.

The work must only be carried out by specialist
personnel because detailed knowledge of the func­tion and structure of the system is required. Always
think carefully about changing settings or removing
components. Before starting work, check that the
system was working correctly before the fault oc­curred.

Following any repair, commissioning must be car­ried out as instructed.

D1FB-EE 5715-704UK 07.01.19

21

Parker Hannifin Corporation

Direct Operated Proportional DC Valve

Operating Instructions

A1.

Standards, directives and provisions relating to the operation of systems in potentially explosive
areas (extract)

1999/92/EC Minimum requirements for improving the safety and health protection of workers

potentially at risk from explosive atmospheres

2004/108/EC Electromagnetic compatibility directive (EMC)

EN ISO 12100:2010 Safety of machinery – General principles for design risk assessment and risk reduction

Series D1FB*EE Explosion Proof

EN 15198:2007 Methodology for risk assessment of non-electrical equipment and components for

EN 60079-0:2009 Explosive atmospheres –
Part 0: Equipment – General requirements

EN 60079-7:2007 Explosive atmospheres –
Part 7: Equipment protection by increased safety “e”

EN 60079-14:2009 Explosive atmospheres –
Part 14: Electrical installations design, selection and erection
(IEC 60079-14:2013)

EN 60079-17:2014 Explosive atmospheres –
Part 17: Electrical installations inspection and maintenance
(IEC 60079-17:2013)

EN 60529:2014 Degrees of protection provided by enclosures (IP code)
(IEC 60529:1989 + A1:1999 + A2:2013)

BetrSichV Ordinance on industrial safety and health

TRBS 2153:2009 Technical rules for operating safety
Avoiding ignition hazards as a result of electrostatic charges

intended use in potentially explosive atmospheres

D1FB-EE 5715-704UK 07.01.19

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Parker Hannifin Corporation

Operating Instructions

A2. User guide – Solenoid

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

23

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

5715-645 DE.INDD CM

24



Parker Hannifin Corporation

Operating Instructions

A3. Type-examination certificate – Solenoid

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

25

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

26

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

27

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

28

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

29

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

30

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

31

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

32

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

33

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

34

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

35

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

36

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

37

Parker Hannifin Corporation

Operating Instructions

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

38

Parker Hannifin Corporation

Operating Instructions

A4. Declaration of conformity - Solenoid

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

39

Parker Hannifin Corporation

Operating Instructions

A5. Mounting instruction cable gland

Direct Operated Proportional DC Valve

Series D1FB*EE Explosion Proof

D1FB-EE 5715-704UK 07.01.19

40

Parker Hannifin Corporation