ProMinent Flow Control 3, Flow Control 4, Flow Control 5 Operating Instructions Manual

ProMinent Metering Monitor
Flow Control 3 - 5

Operating instructions

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Flow Control
SN: 000X

A2235

EN

Part no. 983686 BA MAZ 025 01/16 EN

Please carefully read these operating instructions before use. · Do not discard.

The operator shall be liable for any damage caused by installation or operating errors.

The latest version of the operating instructions are available on our homepage.

General non-discriminatory approach In order to make it easier to read, this docu‐

ment uses the male form in grammatical struc‐
tures but with an implied neutral sense. It is
aimed equally at both men and women. We
kindly ask female readers for their under‐
standing in this simplification of the text.

Supplementary information

Please read the supplementary information in its entirety.

Information

This provides important information relating to the correct operation of the unit or is intended to
make your work easier.

Safety Information

The safety information includes detailed descriptions of the hazardous situation, see

Ä Chapter 2.1

‘Explanation of the safety information’ on page 5

The following symbols are used to highlight instructions, links, lists, results and other elements in
this document:

More symbols

Symbol Description

Action, step by step

⇨ Outcome of an action

Links to elements or sections of these instructions or other applicable docu‐
ments

n

List without set order

[Button]

Display element (e.g. indicators)

Operating element (e.g. button, switch)

‘Display /GUI’

Screen elements (e.g. buttons, assignment of function keys)

CODE

Presentation of software elements and/or texts

Supplemental instructions

2

Table of contents

1 Overview of Types.................................................................................................................. 4

2 Safety Chapter........................................................................................................................ 5

2.1 Explanation of the safety information............................................................................. 5

2.2 Users' qualifications....................................................................................................... 7

2.3 General Safety Information............................................................................................ 9

2.4 Intended Use................................................................................................................ 10

3 Storage and Transport.......................................................................................................... 11

4 Overview of Equipment and Functional Description............................................................. 12

5 Installation............................................................................................................................. 13

5.1 Installation, Hydraulic................................................................................................... 13

5.2 Installation, Electrical.................................................................................................... 13

6 Start Up................................................................................................................................. 14

7 Maintenance.......................................................................................................................... 17

8 Repair.................................................................................................................................... 18

9 Troubleshooting.................................................................................................................... 21

10 Disposal of Used Parts.......................................................................................................... 24

11 Technical Data...................................................................................................................... 25

11.1 Dimensional drawing.................................................................................................. 26

12 Index..................................................................................................................................... 27

Table of contents

3

1 Overview of Types

Flow Control for pump type Material design Order number

Size 3 - DN10 Sigma/ 1: 12017, 10022,

12035, 10044, 10050,
07065

delta: 0450, 0280

PVDF / EPDM 1021168

PVDF / FPM 1021169

Size 3 - DN15 Sigma/ 1: 07042, 04084,

04120

Sigma/ 2: 12050, 12090,
12130

PVDF / EPDM 1021170

PVDF / FPM 1021171

Size 4 - DN25 Sigma/ 2: 07120, 04350

Sigma/ 3: 120145, 120190,
120270

PVDF / EPDM 1021164

PVDF / FPM 1021165

Size 5 - DN32 Sigma/ 3: 07410, 07580,

04830

PVDF / EPDM 1021166

PVDF / FPM 1021167

Metering Monitors "Flow Control" sizes 3 ... 5 are suitable for metering pumps of product range
Sigma/ 1, Sigma/ 2 and Sigma/ 3 and size 3 for metering pumps of the product range delta® with
plastic liquid ends. The metering monitor can be mounted directly onto the dosing head with liquid
ends with built-in relief valve. The metering monitor is supplied complete with a connecting cable.

The metering monitor enables the pulse of the volume flow to be monitored based on the float prin‐
ciple. The partial volume of the feed chemical flowing past the float is adjusted to the stroke volume
set on the metering pump by the rotary dial. An alarm is triggered if capacity falls below the set value

The maximum permitted number of incompletely performed strokes can be set at between 1 ... 127
on the metering pump to ensure optimum adaptation to the requirements of the process.

Overview of Types

4

2 Safety Chapter

2.1 Explanation of the safety
information

Introduction

These operating instructions provide informa‐
tion on the technical data and functions of the
product. These operating instructions provide
detailed safety information and are provided as
clear step-by-step instructions.

The safety information and notes are categor‐
ised according to the following scheme. A
number of different symbols are used to denote
different situations. The symbols shown here
serve only as examples.

DANGER!

Nature and source of the danger

Consequence: Fatal or very serious inju‐
ries.

Measure to be taken to avoid this danger

Danger!

– Denotes an immediate threatening

danger. If this is disregarded, it will
result in fatal or very serious injuries.

WARNING!

Nature and source of the danger

Possible consequence: Fatal or very
serious injuries.

Measure to be taken to avoid this danger

Warning!

– Denotes a possibly hazardous situa‐

tion. If this is disregarded, it could
result in fatal or very serious injuries.

CAUTION!

Nature and source of the danger

Possible consequence: Slight or minor
injuries, material damage.

Measure to be taken to avoid this danger

Caution!

– Denotes a possibly hazardous situa‐

tion. If this is disregarded, it could
result in slight or minor injuries. May
also be used as a warning about
material damage.

Safety Chapter

5

NOTICE!

Nature and source of the danger

Damage to the product or its surroundings

Measure to be taken to avoid this danger

Note!

– Denotes a possibly damaging situa‐

tion. If this is disregarded, the product
or an object in its vicinity could be
damaged.

Type of information

Hints on use and additional information

Source of the information, additional
measures

Information!

–

Denotes hints on use and other useful
information. It does not indicate a
hazardous or damaging situation.

Safety Chapter

6

2.2 Users' qualifications

WARNING!

Danger of injury with inadequately qualified personnel!

The operator of the plant / device is responsible for ensuring that the qualifications are fulfilled.

If inadequately qualified personnel work on the unit or loiter in the hazard zone of the unit, this
could result in dangers that could cause serious injuries and material damage.

– All work on the unit should therefore only be conducted by qualified personnel.

– Unqualified personnel should be kept away from the hazard zone

Training Definition

Instructed personnel An instructed person is deemed to be a person who has been

instructed and, if required, trained in the tasks assigned to him/her and
possible dangers that could result from improper behaviour, as well as
having been instructed in the required protective equipment and protec‐
tive measures.

Trained user A trained user is a person who fulfils the requirements made of an

instructed person and who has also received additional training specific
to the system from ProMinent or another authorised distribution partner.

Trained qualified per‐
sonnel

A qualified employee is deemed to be a person who is able to assess
the tasks assigned to him and recognize possible hazards based on
his/her training, knowledge and experience, as well as knowledge of
pertinent regulations. The assessment of a person's technical training
can also be based on several years of work in the relevant field.

Safety Chapter

7

Training Definition

Electrician Electricians are deemed to be people, who are able to complete work

on electrical systems and recognize and avoid possible hazards inde‐
pendently based on his/her technical training and experience, as well
as knowledge of pertinent standards and regulations.

Electricians should be specifically trained for the working environment
in which the are employed and know the relevant standards and regu‐
lations.

Electricians must comply with the provisions of the applicable statutory
directives on accident prevention.

Customer Service
department

Customer Service department refers to service technicians, who have
received proven training and have been authorised by ProMinent to
work on the system.

Note for the system operator

The pertinent accident prevention regulations, as well as all other generally acknowledged
safety regulations, must be adhered to!

Safety Chapter

8

2.3 General Safety Information

WARNING!

Danger from hazardous substances!

Possible consequence: Fatal or very
serious injuries.

Please ensure when handling hazardous
substances that you have read the latest
safety data sheets provided by the manu‐
facture of the hazardous substance. The
actions required are described in the
safety data sheet. Check the safety data
sheet regularly and replace, if necessary,
as the hazard potential of a substance can
be re-evaluated at any time based on new
findings.

The system operator is responsible for
ensuring that these safety data sheets are
available and that they are kept up to date,
as well as for producing an associated
hazard assessment for the workstations
affected.

WARNING!

Unauthorised access!

Possible consequence: Fatal or very
serious injuries.

– Measure: Ensure that there can be no

unauthorised access to the unit

WARNING!

Operating faults!

Possible consequence: Fatal or very
serious injuries.

– Ensure that the unit is only operated

by adequately qualified and techni‐
cally expert personnel

– Please also observe the operating

instructions for any other units, such
as the metering pump etc.

– The operator is responsible for

ensuring that personnel are qualified

WARNING!

When metering aggressive media, take
into consideration the resistance of the
materials used – refer to the ProMinent®
Resistance List in the latest product cata‐
logue or at www.prominent.com.

NOTICE!

Life phases of the unit

You have a duty to observe the informa‐
tion contained in the operating instructions
at the different phases of the system's
service life

Safety Chapter

9

NOTICE!

National regulations

Please observe the relevant national regu‐
lations and the information provided in the
operating instructions at all phases of the
unit's service life

2.4 Intended Use

NOTICE!

Intended use

The Flow Control is solely designed for
reporting back to a metering pump of the
product range gamma/ L the pulses of the
volume flow in the liquid feed chemical
from it. If there are no acknowledgement
pulses, the Flow Control thereby indicates
that no medium is being metered, e.g. pos‐
sibly due to a blocked suction or discharge
line on the metering pump, empty dosing
tank or air in the liquid end etc.

Only use the unit in accordance with the
technical data and specifications provided
in these operating instructions and in the
operating instructions for the individual
components.

All other uses or modifications are pro‐
hibited.

NOTICE!

Without adapter

The Flow Control can only be screwed
directly (without adapter) onto plastic liquid
ends.

Rupturing of the discharge line

The Flow Control cannot display a rupture
of the discharge line on the metering
pump.

Safety Chapter

10

3 Storage and Transport

Permissible storage temperature: -10 °C ... +50
°C.

Air humidity: < 98 % relative air humidity, non­condensing.

Storage and Transport

11

4 Overview of Equipment and Functional Description

1

2

3

4

1

2

3

4

A2236

Fig. 1: Overview of equipment

1. Counter-magnet

2. Reed switch

3. Float

4. Control valve (rotary dial)

The Metering Monitor "Flow Control" essentially consists of a tube with a float (3) and a bypass with
an adjustable cross-section. The "Flow Control" can be adjusted to the stroke volume of the
metering pump using the adjustable control valve (rotary dial), thereby adjusting its response sensi‐
tivity.

There is always a flow with this design of metering monitor, as the float only narrows the bypass,
rather than the hole.

Overview of Equipment and Functional Description

12

5 Installation

n User qualification, mechanical installation:

trained qualified personnel, see

Ä Chapter

2.2 ‘Users' qualifications’ on page 7

n User qualification, electrical installation:

Electrical technician, see

Ä Chapter 2.2

‘Users' qualifications’ on page 7

5.1 Installation, Hydraulic

Testing

The Flow Control always needs a relief
valve upstream of it to be able to test the
Flow Control.

The Flow Control threaded connections
and the connections to the lines need to
be leak-free.

Operating status

Never allow the Flow Control's maximum
permissible operating pressure (10 bar) to
be exceeded in any operating status of the
system.

Only operate the Flow Control vertically.

Using a foot valve

Install a foot valve on the suction side of
the metering pump. Deposits in the Flow
Control can block the float.

Wetted materials:

n Housing: PVDF
n Float: PTFE coating
n Seals: FPM-B or EPDM, depending on the

order number.

When metering aggressive media, take into
consideration the resistance of the materials
used – refer to the ProMinent® Resistance List
in the latest product catalogue or at

www.prominent.com

.

5.2 Installation, Electrical

Insert the plug of the metering monitor
cable into the pump's "Metering monitor"
socket

ð

The

[Flow]

identifier now appears at
the bottom left of the pump's LCD
display. If not, then switch from

[OFF]

to

[ON]

in the

[FLOW]

menu
and set the number of permitted
defective strokes. The

[FLOW]

menu can only be accessed if the
plug is inserted into the "Metering
monitor" socket.

Installation

13

6 Start Up

n User qualification for diagnosis: trained

user, see

Ä Chapter 2.2 ‘Users' qualifica‐

tions’ on page 7

.

Recalibration

Recalibrate the pump if you need to after
installation if the pump was calibrated
before the Flow Control was installed.

Not a shut-off device

Never use the Flow Control as a shut-off
device. The rotary dial cannot be used to
block the hole for the float.

Turning the rotary dial under pressure can
temporarily cause leakage, therefore refer
to the latest material safety data sheet for
your feed chemical.

Pump delta

®

Set the delta® to "Pressure stroke setting"
– "fast" to ensure that it operates reliably.

Error

Press the P key to acknowledge if the
metering pump goes into "Error" mode
during start up.

Priming

Press both error keys at the same time
on the metering pump.

Dynamic adjustment

Minimum values

With low-viscosity feed chemicals up to a
viscosity of approx. 100 mPa. Higher vis‐
cosities on request.

Start Up

14

"Flow" identifier

The "Flow" identifier disappears when the
reed switch is closed, that is when the float
is in its uppermost position.

1. Disconnect the metering monitor cable
to temporarily disable the metering mon‐
itor.

2. Turn the rotary dial fully to the left ("-")

3. Enter the required operating pressure
on the discharge line, max. 10 bar.

4.

Only set the Flow Control initially to
a stroke rate of 90 Hz even on
pumps with speed control (stroke
control motor or frequency con‐
verter). The Flow Control then gen‐
erally operates faultlessly even at
stroke rates of up to 200 Hz, which
you can test after setting it.

Set a stroke rate of 90 Hz.

5. Reconnect the metering monitor cable.

ð

The "Flow" identifier on the
metering pump's LCD display goes
out with each pressure surge.

6. Slowly turn the rotary dial on the
metering monitor to the right ("+") until
the "Flow" identifier stops flashing.

7. Turn the rotary dial back a little until the
"Flow" identifier starts flashing again.

8. Use the frequency to set the required
capacity on the running pump.

9. Open the relief valve upstream of the
Flow Control; the "Flow" identifier should
stop flashing. If not, slowly turn the
rotary dial on the metering monitor to
the right ("+") again until the "Flow" iden‐
tifier stops flashing.

10. Close the relief valve upstream of the
Flow Control again and adjust it.

ð

The "Flow" identifier should flash
again.

Start Up

15

Static adjustment

Identity code characteristic "Metering

monitor = 1"

This is only possible with high viscosities.
Not possible with pumps of the delta

®

product range.

Reed switch is closed

The "Flow" identifier disappears when the
reed switch is closed, that is when the float
is in its uppermost position

1. Disconnect the metering monitor cable
to temporarily disable the metering mon‐
itor.

2. Turn the rotary dial fully to the left ("-")

3. Enter the required operating pressure
on the discharge line, max. 10 bar.

4.

Only set the Flow Control initially to
a stroke rate of 90 Hz even on
pumps with speed control (stroke
control motor or frequency con‐
verter). The Flow Control then gen‐
erally operates faultlessly even at
stroke rates of up to 200 Hz, which
you can test after setting it.

Set a stroke rate of 90 Hz.

5. Reconnect the metering monitor cable.

ð

The "Flow" identifier on the LCD
display of the metering pump goes
out.

6. Slowly turn the rotary dial on the
metering monitor to the right ("+") until
the "Flow" identifier appears.

7. Turn the rotary dial back a little until the
"Flow" identifier disappears again.

8. Use the frequency to set the required
capacity on the running pump.

9. Open the relief valve upstream of the
Flow Control; the "Flow" identifier should
appear. If not, slowly turn the rotary dial
on the metering monitor to the right ("+")
again until the "Flow" identifier appears.

10. Close the relief valve upstream of the
Flow Control again and adjust it.

ð

The "Flow" identifier should disap‐
pear again.

Start Up

16

7 Maintenance

n User qualification: instructed user, see

Ä Chapter 2.2 ‘Users' qualifications’

on page 7

Maintenance interval

Check that the metering monitor is working
correctly every 3 months. Shorter mainte‐
nance intervals are recommended with a
heavier workload.

Checking the setting

Dynamic operation

1. Open the relief valve upstream of the
Flow Control – the "Flow" identifier
should stop flashing. If not, search for
the cause and readjust the Flow Control
if you need to.

2. Close the relief valve upstream of the
Flow Control again and adjust it.

ð

The "Flow" identifier should flash
again.

Static operation

3. Open the relief valve upstream of the
Flow Control; the "Flow" identifier should
appear. If not, search for the cause and
readjust the Flow Control if you need to.

4. Close the relief valve upstream of the
Flow Control again and adjust it.

ð

The "Flow" identifier should disap‐
pear again.

Maintenance

17

8 Repair

n User qualification: instructed user, see

Ä Chapter 2.2 ‘Users' qualifications’ on page 7

WARNING!

Danger from hazardous substances!

Possible consequence: Fatal or very serious injuries.

Please ensure when handling hazardous substances that you have read the latest safety data
sheets provided by the manufacture of the hazardous substance. The actions required are
described in the safety data sheet. Check the safety data sheet regularly and replace, if neces‐
sary, as the hazard potential of a substance can be re-evaluated at any time based on new
findings.

The system operator is responsible for ensuring that these safety data sheets are available and
that they are kept up to date, as well as for producing an associated hazard assessment for the
workstations affected.

Wet contacts

Avoid the plug contacts becoming wet. Dry the contacts before attaching them.

Repair

18

A2237

Fig. 2: Exploded drawing of the Flow Control 3

Reed switch

The reed switch has to be fixed in the upper position, see Fig. 1

Repair

19

Cleaning the inside of the Flow Control

Cleaning

Clean the inside of the Flow Control if it is blocked or sticking, see exploded drawing
Ä further information on page 18.

1. Unscrew the top of the dismantled Flow Control.

2. Remove the counter-magnet and O-ring from the hole for the float.

3. Remove the float.

4. Clean everything with a suitable cleaning agent and tool.

5. Check in which direction the float and counter-magnet repel each other

6. Allow the float to slide into the hole.

7. Flow Control 3: Use tweezers to insert the O-ring into the hole for the float.

8. Flow Control 4 and 5: Push the O-ring from below onto the counter-magnets and push the
insert on from above.

9. Adjust the counter-magnet so that the counter-magnet repels the float.

10. Screw the Flow Control tightly closed.

Repair

20

9 Troubleshooting

n User qualification: instructed user, see

Ä Chapter 2.2 ‘Users' qualifications’ on page 7

WARNING!

Danger from hazardous substances!

Possible consequence: Fatal or very serious injuries.

Please ensure when handling hazardous substances that you have read the latest safety data
sheets provided by the manufacture of the hazardous substance. The actions required are
described in the safety data sheet. Check the safety data sheet regularly and replace, if neces‐
sary, as the hazard potential of a substance can be re-evaluated at any time based on new
findings.

The system operator is responsible for ensuring that these safety data sheets are available and
that they are kept up to date, as well as for producing an associated hazard assessment for the
workstations affected.

Adjust the system until it is at atmospheric pressure

Make sure that the system is at atmospheric pressure before working on the Flow Control or
metering pump.

Troubleshooting

21

Fault

Press the P key to return the metering pump to operating status after one of the following faults.

Fault Cause Remedy

The metering pump stops
during priming (red LED
display lights up, "Error"
identifier appears and
"FLOW" flashes)

The Flow Control has not
emitted any acknowl‐
edgement pulses due to
air in the liquid end

During priming, remove the metering
monitor cable - the "Flow" function is
disabled during this time.

The metering pump stops
when the Flow Control is
being adjusted (red LED
display lights up, "Error"
identifier appears and
"FLOW" flashes)

The Flow Control has
emitted too few acknowl‐
edgement pulses in suc‐
cession

Press the P key.

The metering pump stops
during operation (red LED
display lights up, "Error"
identifier appears and
"FLOW" flashes)

There is gas in the liquid
end - gaseous feed
chemical

n Disconnect the metering monitor

cable from the metering pump

n Bleed the liquid end
n Insert the metering monitor cable

into the socket on the metering
pump

n Increase the number of acknowl‐

edgement pulses (see FLOW
menu).

There is air in the liquid
end – the dosing tank is
empty

n Fill the dosing tank
n Disconnect the metering monitor

cable from the metering pump

n Bleed the liquid end
n Insert the metering monitor cable

into the socket on the metering
pump.

Troubleshooting

22

Fault Cause Remedy

There is gas in the dosing
head – leakage between
the dosing tank and the
Flow Control

n Repair the leak
n Disconnect the metering monitor

cable from the metering pump

n Bleed the liquid end
n Insert the metering monitor cable

into the socket on the metering
pump.

Blockage between the
Flow Control and dosing
tank

n Clear the blockage
n Disconnect the metering monitor

cable from the metering pump

n Bleed the liquid end
n Insert the metering monitor cable

into the socket on the metering
pump.

The stroke adjustment
dial is incorrectly adjusted

Refer to "Start Up" - "Adjustment"

The feed chemical vis‐
cosity is too high

The float is sticking Clean the Flow Control, see "Repair"

Troubleshooting

23

10 Disposal of Used Parts

n User qualification: instructed user, see

Ä Chapter 2.2 ‘Users' qualifications’

on page 7

NOTICE!

Regulations governing the disposal of
used parts

– Note the current national regulations

and legal standards which apply in
your country

The manufacturer will take back decontami‐
nated used units providing they are covered by
adequate postage.

Decontaminate the unit before returning it for
repair. To do so, remove all traces of haz‐
ardous substances. Refer to the Material Safety
Data Sheet for your feed chemical.

A current Declaration of Decontamination is
available to download on the ProMinent web‐
site.

Disposal of Used Parts

24

11 Technical Data

Max. back pressure: 10 bar.

Body Float O-rings

PVDF PTFE coating EPDM (with order no. 1021164, 1021166,

1021168, 1021170)

FPM-B (with order no. 1021169, 1021171,
1021165, 1021167)

Weight:

n Flow Control 3: approx. 200 g
n Flow Control 4 / 5: approx. 650 g

Electrical data of the reed switch:

n Max. switching power: 10 W
n Max. switching voltage: 200 V DC / 140 V AC eff
n Max. switching current: 0.5 A

Temperature data:

n Storage temperature: -10 °C ... +50 °C
n Ambient temperature: -10 °C ... +45 °C
n Medium temperature (at max. operating pressure): -10 °C ... +35 °C
n Protection against contact and humidity: IP 65 (in accordance with DIN 60529 and IEC 60529,

corresponding to VDE 0470 Part 1)

Technical Data

25

11.1 Dimensional drawing

A2238

Fig. 3: Dimensions

Technical Data

26

12 Index

A

Action, step by step ................2

Air humidity ....................11

C

Cleaning the inside of the Flow Control ...20

D

Danger from hazardous substances! .....18

Dynamic adjustment ...............14

Dynamic operation ................17

G

General non-discriminatory approach .....2

H

Hose clamp on the Flow Control .......13

L

Links to elements or sections of these
instructions or other applicable documents ..2

M

Maintenance interval ..............17

Max. viscosity (for dynamic operation) ....15

More symbols ...................2

Multifunctional valve ...............13

N

Non-discriminatory approach ..........2

P

Permissible storage temperature .......11

R

Recalibration ...................14

Reed switch ....................20

Relief valve ....................13

S

Safety information .................5

Static adjustment .................16

Static operation ..................17

U

Users' qualifications ................7

Using a foot valve ................13

W

Wet contacts ...................18

Index

27

983686, 1, en_GB

© 2016

ProMinent GmbH

Im Schuhmachergewann 5 - 11

69123 Heidelberg

Germany

Telephone: +49 6221 842-0

Fax: +49 6221 842-419

Email: info@prominent.com

Internet: www.prominent.com