BAL_4427491_02_001_EN.pdf

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On-load tap-changer
OILTAP® V
Installation and commissioning instructions

4427491/02 EN
© All rights reserved by Maschinenfabrik Reinhausen
Dissemination and reproduction of this document and use and disclosure of its content are strictly prohibited
unless expressly permitted.
Infringements will result in liability for compensation. All rights reserved in the event of the granting of patents,
utility models or designs.
The product may have been altered since this document was published.
We reserve the right to change the technical data, design and scope of supply.
Generally the information provided and agreements made when processing the individual quotations and orders
are binding.
The original operating instructions were written in German.
Table of contents

Table of contents

1 Introduction......................................................................................................................... 7
1.1 Manufacturer....................................................................................................................................... 7
1.2 Completeness..................................................................................................................................... 7
1.3 Safekeeping........................................................................................................................................ 7
1.4 Notation conventions.......................................................................................................................... 7
1.4.1 Hazard communication system............................................................................................................................. 7
1.4.2 Information system................................................................................................................................................ 9
1.4.3 Instruction system................................................................................................................................................. 9

2 Safety................................................................................................................................. 11
2.1 Appropriate use................................................................................................................................ 11
2.2 Inappropriate use.............................................................................................................................. 12
2.3 Fundamental safety instructions....................................................................................................... 12
2.4 Personnel qualification...................................................................................................................... 14
2.5 Personal protective equipment......................................................................................................... 15

3 Product description.......................................................................................................... 16
3.1 Scope of delivery.............................................................................................................................. 16
3.2 On-load tap-changer......................................................................................................................... 16
3.2.1 Function description............................................................................................................................................ 16
3.2.2 Setup/versions.................................................................................................................................................... 17
3.2.3 Name plate.......................................................................................................................................................... 20
3.2.4 Protective devices............................................................................................................................................... 20
3.3 Drive shaft......................................................................................................................................... 26
3.3.1 Function description............................................................................................................................................ 26
3.3.2 Design/versions................................................................................................................................................... 27
3.4 OF 100 Oil Filter Unit........................................................................................................................ 32

4 Packaging, transport and storage.................................................................................. 33
4.1 Packaging......................................................................................................................................... 33
4.1.1 Suitability............................................................................................................................................................. 33
4.1.2 Markings.............................................................................................................................................................. 34
4.2 Transportation, receipt and handling of shipments........................................................................... 35
4.3 Storage of shipments........................................................................................................................ 36
4.4 Unpacking shipments and checking for transportation damages..................................................... 37

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 Table of contents

5 Mounting........................................................................................................................... 38
5.1 Preparatory work.............................................................................................................................. 38
5.1.1 Fitting mounting flange on transformer cover...................................................................................................... 38
5.1.2 Fitting stud bolts on mounting flange.................................................................................................................. 39
5.2 Installing the on-load tap-changer in the transformer (standard version)......................................... 40
5.2.1 Fastening on-load tap-changer on transformer cover......................................................................................... 40
5.2.2 Connecting the tap winding and on-load tap-changer take-off lead.................................................................... 43
5.2.3 Performing transformer ratio test before drying.................................................................................................. 44
5.2.4 Performing DC resistance measurement on transformer.................................................................................... 45
5.2.5 Drying on-load tap-changer in autoclave............................................................................................................ 45
5.2.6 Drying on-load tap-changer in transformer tank.................................................................................................. 54
5.2.7 Filling the oil compartment of the on-load tap-changer with insulating fluid........................................................ 86
5.2.8 Performing transformer ratio test after drying..................................................................................................... 87
5.3 Installing the on-load tap-changer in the transformer (bell-type tank version).................................. 88
5.3.1 Inserting on-load tap-changer into supporting structure...................................................................................... 88
5.3.2 Connecting the tap winding and on-load tap-changer take-off lead.................................................................... 90
5.3.3 Performing transformer ratio test before drying.................................................................................................. 91
5.3.4 Performing DC resistance measurement on transformer.................................................................................... 92
5.3.5 Drying on-load tap-changer in autoclave............................................................................................................ 92
5.3.6 Lifting top part of on-load tap-changer head off supporting flange (bottom part).............................................. 102
5.3.7 Attaching the bell-type tank and connecting the on-load tap-changer to the top part of the on-load tap-changer
head.................................................................................................................................................................. 106
5.3.8 Drying on-load tap-changer in transformer tank................................................................................................ 114
5.3.9 Filling the oil compartment of the on-load tap-changer with insulating fluid...................................................... 145
5.3.10 Performing transformer ratio test after drying................................................................................................... 146
5.4 Fitting protective devices and drive components............................................................................ 147
5.4.1 Installing protective relay in piping and connecting........................................................................................... 147
5.4.2 Installing and connecting the pressure monitoring device................................................................................ 159
5.4.3 Fitting motor-drive unit...................................................................................................................................... 161
5.4.4 Fitting drive shaft............................................................................................................................................... 161
5.4.5 Centering on-load tap-changer and motor-drive unit........................................................................................ 210
5.4.6 Making the electrical connections for the motor-drive unit................................................................................ 210

6 Commissioning............................................................................................................... 211
6.1 Commissioning the on-load tap-changer at the transformer manufacturer's site........................... 211
6.1.1 Bleeding on-load tap-changer head and suction pipe....................................................................................... 212
6.1.2 Grounding the on-load tap-changer.................................................................................................................. 213

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6.1.3 Checking motor-drive unit................................................................................................................................. 215
6.1.4 High-voltage tests on the transformer............................................................................................................... 215
6.2 Transporting transformer to the operating site................................................................................ 217
6.2.1 Transport with drive removed............................................................................................................................ 217
6.2.2 Transport with full transformer tank and without oil conservator....................................................................... 217
6.2.3 Transport with empty transformer tank............................................................................................................. 218
6.3 Commissioning transformer at operating site................................................................................. 220
6.3.1 Filling the oil compartment of the on-load tap-changer with insulating fluid...................................................... 220
6.3.2 Bleeding on-load tap-changer head and suction pipe....................................................................................... 222
6.3.3 Checking motor-drive unit................................................................................................................................. 223
6.3.4 Checking protective relay.................................................................................................................................. 224
6.3.5 Checking pressure monitoring device............................................................................................................... 225
6.3.6 Commissioning the transformer........................................................................................................................ 226

7 Fault elimination............................................................................................................. 227
7.1 Tripping the protective relay and re-commissioning the transformer.............................................. 229
7.1.1 Flap valve in OPERATION position.................................................................................................................. 230
7.1.2 Flap valve in OFF position................................................................................................................................ 230
7.1.3 Re-commissioning the transformer................................................................................................................... 230
7.2 Tripping the pressure monitoring device and putting the transformer back into operation............. 231
7.2.1 Sensor in the OPERATION position................................................................................................................. 231
7.2.2 Sensor in the OFF position............................................................................................................................... 232
7.2.3 Re-commissioning the transformer................................................................................................................... 232

8 Technical data................................................................................................................. 233
8.1 Technical data for on-load tap-changer.......................................................................................... 233
8.1.1 On-load tap-changer properties........................................................................................................................ 233
8.1.2 Permissible ambient conditions......................................................................................................................... 235
8.2 Technical data for protective relay.................................................................................................. 237
8.3 Special models of protective relay.................................................................................................. 239
8.3.1 Protective relay with CO change-over contact as tripping switch..................................................................... 239
8.3.2 Protective relay with several dry-reed magnetic switches................................................................................. 240
8.4 Technical data for pressure monitoring device............................................................................... 241
8.5 Limit values for dielectric strength and water content of insulating fluids....................................... 242

9 Drawings......................................................................................................................... 243
9.1 OILTAP® V 200, installation drawing (893945).............................................................................. 243
9.2 OILTAP® V 350, installation drawing (893821).............................................................................. 244

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9.3 OILTAP® V, tracing template for on-load tap-changer head (893787).......................................... 245
9.4 OILTAP® V, on-load tap-changer head (893779).......................................................................... 246
9.5 OILTAP® V, supporting flange for special bell-type tank installation version (893864)................. 247
9.6 OILTAP® V, lifting traverse (893805)............................................................................................. 248
9.7 Bevel gear CD 6400, dimensional drawing (892916)..................................................................... 249
9.8 894566............................................................................................................................................ 250

Glossary.......................................................................................................................... 251

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1 Introduction

1 Introduction
This technical file contains detailed descriptions of the safe and proper in-
stallation, connection, and commissioning of the product.

It also includes safety instructions and general information about the prod-
uct.

Information about operation can be found in the operating instructions.

This technical file is intended solely for specially trained and authorized per-
sonnel.

1.1 Manufacturer
The product is manufactured by:

Maschinenfabrik Reinhausen GmbH

Falkensteinstraße 8
93059 Regensburg
Tel.: (+49) 9 41/40 90-0
E-mail: [email protected]

Further information on the product and copies of this technical file are avail-
able from this address if required.

1.2 Completeness
This technical file is incomplete without the supporting documents.

The following documents are considered supporting documents:
▪ Unpacking instructions
▪ Supplement
▪ Routine test report
▪ Connection diagrams
▪ Dimensional drawings
▪ Order confirmation

1.3 Safekeeping
Keep this technical file and all supporting documents ready at hand and ac-
cessible for future use at all times.

1.4 Notation conventions

1.4.1 Hazard communication system
Warnings in this technical file are displayed as follows.

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 1 Introduction

1.4.1.1 Warning relating to section

Warnings relating to sections refer to entire chapters or sections, sub-sec-
tions or several paragraphs within this technical file. Warnings relating to
sections use the following format:

WARNING Type of danger!
Source of the danger and outcome.
► Action
► Action

1.4.1.2 Embedded warning information

Embedded warnings refer to a particular part within a section. These warn-
ings apply to smaller units of information than the warnings relating to sec-
tions. Embedded warnings use the following format:

DANGER! Instruction for avoiding a dangerous situation.

1.4.1.3 Signal words and pictograms

The following signal words are used:
Signal word Definition
DANGER Indicates a hazardous situation which, if not avoided, will result in
death or serious injury.
WARNING Indicates a hazardous situation which, if not avoided, could result
in death or serious injury.
CAUTION Indicates a hazardous situation which, if not avoided, could result
in minor or moderate injury.
NOTICE Indicates measures to be taken to prevent damage to property.
Table 1: Signal words in warning notices

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1 Introduction

Pictograms warn of dangers:
Pictogram Definition
Warning of a danger point

Warning of dangerous electrical voltage

Warning of combustible substances

Warning of danger of tipping

Warning of danger of crushing

Table 2: Pictograms used in warning notices

1.4.2 Information system
Information is designed to simplify and improve understanding of particular
procedures. In this technical file it is laid out as follows:

Important information.

1.4.3 Instruction system
This technical file contains single-step and multi-step instructions.

Single-step instructions

Instructions which consist of only a single process step are structured as fol-
lows:

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 1 Introduction

Aim of action
ü Requirements (optional).
► Step 1 of 1.
ð Result of step (optional).
ð Result of action (optional).

Multi-step instructions

Instructions which consist of several process steps are structured as follows:

Aim of action
ü Requirements (optional).
1. Step 1.
ð Result of step (optional).
2. Step 2.
ð Result of step (optional).
ð Result of action (optional).

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2 Safety

2 Safety
▪ Read this technical file through to familiarize yourself with the product.
▪ This technical file is a part of the product.
▪ Read and observe the safety instructions provided in this chapter.
▪ Read and observe the warnings in this technical file in order to avoid func-
tion-related dangers.
▪ The product is manufactured on the basis of state-of-the-art technology.
Nevertheless, risks to life and limb for the user or impairment of the prod-
uct and other material assets due to the function may arise in the event of
improper use.

2.1 Appropriate use
The product is an on-load tap-changer and adjusts the transmission ratio of
transformers without interrupting the load flow. The product is designed
solely for use in electrical energy systems and facilities. If used as intended
and in compliance with the requirements and conditions specified in this
technical file as well as the warning notices in this technical file and attached
to the product, then the product does not present any danger to people,
property or the environment. This applies throughout the service life of the
product, from delivery, installation and operation to removal and disposal.

The following is considered intended use:
▪ Use the product only with the transformer/motor-drive unit specified in the
order.
▪ The serial numbers of on-load tap-changer and on-load tap-changer ac-
cessories (drive, drive shaft, bevel gear, protective relay, etc.) must match
if the on-load tap-changer and on-load tap-changer accessories are sup-
plied as a set for one order.
▪ You will find the standard valid for the product and the year of issue on the
nameplate.
▪ Operate the product in accordance with this provided technical file, the
agreed delivery conditions and technical data.
▪ Ensure that all necessary work is performed by qualified personnel only.
▪ Only use the equipment and special tools included in the scope of delivery
for the intended purpose and in accordance with the specifications of this
technical document.

Permitted electrical operating conditions

In addition to the design data in accordance with the order confirmation, ob-
serve the following limits for the through-current and the step voltage:

In the standard version, the on-load tap-changer is designed for sinusoidal
50/60 Hz alternating current with a curve form symmetrical to the zero axis
and can switch 2 times the rated through-current Ir at its rated step voltage
Uir.

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 2 Safety

Exceeding the rated step voltage Uir by up to 10% for a short period is per-
mitted as long as the rated step capacity PStN permissible for this step volt-
age is not exceeded.

2.2 Inappropriate use
Use is considered inappropriate if the product is used in a way other than as
described in the "Appropriate use" section. In addition, observe the following:

Prohibited electrical operating conditions

All operating conditions that do not comply with the design data in accor-
dance with the order confirmation are prohibited.

Prohibited operating conditions may arise due to short circuits as well as due
to inrush current impulses when energizing transformers or other electrical
machines. This applies to the affected transformer itself just as it does to
transformers electrically connected in parallel or serially or other electrical
machines.

Higher voltages may occur due to transformer overexcitation following load
shedding, for example.

Operations outside of the permitted operating conditions can lead to injury to
persons and damage to the product.
▪ Prevent any such operations outside of the permitted operating conditions
by taking suitable measures.

2.3 Fundamental safety instructions
To prevent accidents, disruptions and damage as well as unacceptable ad-
verse effects on the environment, those responsible for transport, installa-
tion, operation, maintenance and disposal of the product or parts of the prod-
uct must ensure the following:

Personal protective equipment

Loosely worn or unsuitable clothing increases the danger of becoming
trapped or caught up in rotating parts and the danger of getting caught on
protruding parts. This poses a danger to life and limb.
▪ Wear appropriate personal protective equipment such as a helmet, work
gloves, etc. for the respective activity.
▪ Never wear damaged personal protective equipment.
▪ Never wear rings, necklaces, or other jewelry.
▪ If you have long hair, wear a hairnet.

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2 Safety

Work area

Untidy and poorly lit work areas can lead to accidents.
▪ Keep the work area clean and tidy.
▪ Make sure that the work area is well lit.
▪ Observe the applicable laws for accident prevention in the relevant coun-
try.

Working during operation

The product may only be operated in a sound, operational condition. Other-
wise it poses a danger to life and limb.
▪ Regularly check the operational reliability of safety equipment.
▪ Comply with the inspection work, maintenance work and maintenance in-
tervals described in this technical file.

Explosion protection

Highly flammable or explosive gases, vapors and dusts can cause serious
explosions and fire. This increases the danger to life and limb.
▪ Do not install, operate or perform maintenance work on the product in ar-
eas where a risk of explosion is present.

Safety markings

Warning signs and safety information plates are safety markings on the
product. They are an important aspect of the safety concept.
▪ Observe all safety markings on the product.
▪ Make sure all safety markings on the product remain intact and legible.
▪ Replace safety markings that are damaged or missing.

Ambient conditions

To ensure reliable and safe operation, the product must only be operated
under the ambient conditions specified in the technical data.
▪ Observe the specified operating conditions and requirements for the in-
stallation location.

Auxiliary materials and operating materials

Auxiliary materials and operating materials not approved by the manufac-
turer can lead to personal injury, damage to property and malfunctions of the
product.
▪ Only use insulating fluids [►Section 8.1.2, Page 235] approved by the
manufacturer.
▪ Only use conductive and grounded hoses, pipes and pump equipment
that are approved for flammable liquids.

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 2 Safety

▪ Only use lubricants and auxiliary materials approved by the manufacturer.
▪ Contact the manufacturer.

Modifications and conversions

Unauthorized or inappropriate changes to the product may lead to personal
injury, material damage and operational faults.
▪ Only modify the product after consultation with Maschinenfabrik Rein-
hausen GmbH.

Spare parts

Spare parts not approved by Maschinenfabrik Reinhausen GmbH may lead
to physical injury, damage to the product and malfunctions.
▪ Only use spare parts that have been approved by Maschinenfabrik Rein-
hausen GmbH.
▪ Contact Maschinenfabrik Reinhausen GmbH.

2.4 Personnel qualification
The person responsible for assembly, commissioning, operation, mainte-
nance and inspection must ensure that the personnel are sufficiently quali-
fied.

Electrically skilled person

The electrically skilled person has a technical qualification and therefore has
the required knowledge and experience, and is also conversant with the ap-
plicable standards and regulations. The electrically skilled person is also pro-
ficient in the following:
▪ Can identify potential dangers independently and is able to avoid them.
▪ Is able to perform work on electrical systems.
▪ Is specially trained for the working environment in which (s)he works.
▪ Must satisfy the requirements of the applicable statutory regulations for
accident prevention.

Electrically trained persons

An electrically trained person receives instruction and guidance from an
electrically skilled person in relation to the tasks undertaken and the poten-
tial dangers in the event of inappropriate handling as well as the protective
devices and safety measures. The electrically trained person works exclu-
sively under the guidance and supervision of an electrically skilled person.

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2 Safety

Operator

The operator uses and operates the product in line with this technical file.
The operating company provides the operator with instruction and training
on the specific tasks and the associated potential dangers arising from im-
proper handling.

Technical Service

We strongly recommend having maintenance, repairs and retrofitting carried
out by our Technical Service department. This ensures that all work is per-
formed correctly. If maintenance is not carried out by our Technical Service
department, please ensure that the personnel who carry out the mainte-
nance are trained and authorized by Maschinenfabrik Reinhausen GmbH to
carry out the work.

Authorized personnel

Authorized personnel are trained by Maschinenfabrik Reinhausen GmbH to
carry out special maintenance.

2.5 Personal protective equipment
Personal protective equipment must be worn during work to minimize risks to
health.
▪ Always wear the personal protective equipment required for the job at
hand.
▪ Never wear damaged personal protective equipment.
▪ Observe information about personal protective equipment provided in the
work area.
Protective clothing Close-fitting work clothing with a low tearing strength,
with tight sleeves and with no protruding parts. It mainly
serves to protect the wearer against being caught by
moving machine parts.
Safety shoes To protect against falling heavy objects and slipping on
slippery surfaces.
Safety glasses To protect the eyes from flying parts and splashing liq-
uids.
Visor To protect the face from flying parts and splashing liq-
uids or other dangerous substances.
Hard hat To protect against falling and flying parts and materials.
Hearing protection To protect against hearing damage.
Protective gloves To protect against mechanical, thermal, and electrical
hazards.
Table 3: Personal protective equipment

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 3 Product description

3 Product description

3.1 Scope of delivery
The product is packaged with protection against moisture and is usually de-
livered as follows:
▪ On-load tap-changer
▪ Drive shaft with coupling parts and bevel gear
▪ Protective devices
▪ Technical files

Please refer to the delivery slip for full details of scope of delivery.

On-load tap-changers can also be provided as an on-load tap-changer set
with a common motor-drive unit.

Note the following information:
▪ Check the shipment for completeness on the basis of the shipping docu-
ments.
▪ Store the parts in a dry place until installation
▪ The product must remain in its airtight, protective wrapping and may only
be removed immediately before installation

You will find more information in the "Packaging, transport, and stor-
age" [►Section 4, Page 33] chapter.

3.2 On-load tap-changer

3.2.1 Function description
On-load tap-changers are used to adjust the transmission ratio of transform-
ers without interrupting the load flow. This makes it possible to compensate
for aspects such as fluctuations in voltage occurring in the power transmis-
sion grid. For this purpose, on-load tap-changers are fitted in transformers
and connected to the active part of the transformer.

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3 Product description

A motor-drive unit which receives a control impulse (e.g. from a voltage reg-
ulator) changes the operating position of the on-load tap-changer, as a result
of which the transformer's transmission ratio is adapted to the prevailing op-
erating requirements.

Figure 1: System overview of on-load tap-changer transformer

1 Transformer tank 6 Upper gear unit
2 Motor-drive unit 7 On-load tap-changer
3 Vertical drive shaft 8 RS protective relay
4 Bevel gear 9 Oil conservator
5 Horizontal drive shaft 10 Active part of the transformer

3.2.2 Setup/versions
The on-load tap-changer is designed in tubular form and combines the func-
tions of a diverter switch and tap selector. The insulating fluid is separated
from the transformer oil by means of the cylindrical pressure-proof oil com-
partment.

The on-load tap-changer is secured to the transformer cover by the on-load
tap-changer head. If required, the on-load tap-changer is equipped with a
change-over selector.

The on-load tap-changer and motor-drive unit are shipped in the adjustment
position.

The design and designation of the most important on-load tap-changer com-
ponents are shown in the installation drawings in the appendix.

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 3 Product description

For the number of maximum operating positions of the on-load tap-changer,
refer to the technical data.

Figure 2: OILTAP® V on-load tap-changer

1 Rupture disk 2 On-load tap-changer head cover
3 On-load tap-changer head 4 Oil compartment
5 Pipe bend 6 Upper gear unit

3.2.2.1 Pipe connections

The on-load tap-changer head features 4 pipe connections for different pur-
poses.

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3 Product description

Depending on the order, some or all of these pipe connections are fitted with
pipe bends ex factory. All pipe bends can be freely swiveled once the pres-
sure ring is loosened.

Figure 3: Pipe connections with pipe bends

Pipe connection Q

Pipe connection Q is closed with a blank cover and is intended for connect-
ing the oil filter unit.

The functions of the R and Q pipe connections can be interchanged.

Pipe connection S

The pipe bend on pipe connection S features a vent screw and can be con-
nected to a pipe that ends with a drain valve on the side of the transformer
tank at operating height. If the on-load tap-changer is fitted with an oil suc-
tion pipe, the on-load tap-changer can be completely emptied via pipe con-
nection S.

Pipe connection R

Pipe connection R is intended for attachment of the protective relay and con-
nection of the on-load tap-changer oil conservator and can be interchanged
with pipe connection Q.

Pipe connection E2

Pipe connection E2 is sealed off with a blank cover. It leads into the oil tank
of the transformer, directly under the on-load tap-changer head and can be
connected to a collective pipe for the Buchholz relay, if necessary. This pipe
connection serves a further purpose, namely to equalize the pressure be-
tween the transformer tank and oil compartment of the on-load tap-changer,
which is necessary for drying, filling with insulating fluid and transportation of
the transformer.

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 3 Product description

3.2.3 Name plate
The name plate is on the on-load tap-changer head cover.

Figure 4: Position of name plate

3.2.4 Protective devices
The on-load tap-changer is equipped with the following protective devices.

3.2.4.1 Protective relay

3.2.4.1.1 Function description

The protective relay is looped into the circuit breaker tripping circuit. It is
tripped when the specified speed of flow from the on-load tap-changer head
to the oil conservator is exceeded due to a fault. The flowing insulating fluid
actuates the flap valve which tips over into position OFF. The contact in the
dry-reed magnetic switch is thereby actuated, the circuit breakers are
tripped, and the transformer is de-energized.

The protective relay is a component of an on-load tap-changer filled with in-
sulating fluid and its properties conform to the respective applicable version
of IEC publication 60214-1.

Diverter switch operations at rated switching capacity or at permissible over-
load will not cause the protective relay to trip.

The protective relay responds to flow, not to gas accumulated in the protec-
tive relay. It is not necessary to bleed the protective relay when filling the
transformer with insulating fluid. Gas accumulation in the protective relay is
normal.

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3 Product description

3.2.4.1.2 Design/versions
Front view

Figure 5: Protective relay RS 2001

1 Inspection window 2 Pressure equalization element

Rear view

Figure 6: Protective relay RS 2001

1 Dummy plug 2 Nameplate

The protective relay RS 2001/R has an extra inspection window on the rear.

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 3 Product description

View from above

Figure 7: Protective relay RS 2001

1 Gasket 2 Potential tie-in
3 Terminal box cover 4 Slotted head screw for potential
tie-in
5 OPERATION (reset) test button 6 Slotted head screw for protective
cover
7 OFF (test tripping) test button 8 Cable gland
9 Protective cover 10 Dummy plug
11 Connection terminal 12 Pressure equalization element
13 Cylinder head screw for protective
conductor connection

The protective relays RS 2003 and RS 2004 have a 1/2"-14NPT adapter in
place of the cable gland.

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3 Product description

3.2.4.1.3 Nameplate

The nameplate is on the back of the protective relay.

Figure 8: Nameplate

3.2.4.2 Pressure monitoring device DW

3.2.4.2.1 Function description

The DW 2000 pressure monitoring device protects the on-load tap-changer
from impermissible pressure increases, contributing to the safety of the
transformer. The pressure monitoring device is installed on the outside of the
on-load tap-changer and is tripped by impermissible static and dynamic
pressures in the on-load tap-changer oil compartment.

The pressure monitoring device uses a concept where a corrugated tube
acts as a barometer together with a spring providing counter force. This as-
sembly is mechanically linked to the sensor on the snap-action switch.

The pressure increase activates the sensor on the snap-action switch, which
flips into the OFF position. This triggers the circuit breaker and de-energizes
the transformer. The sensor on the snap-action switch has to be reset to the
initial position by hand after tripping.

Low-energy interference does not cause the pressure monitoring device to
trip since the required tripping pressure is not reached. The tripping pressure
is set at the factory and prevented from being changed.

The pressure monitoring device responds to large pressure increases faster
than the protective relay. The protective relay is part of the standard MR pro-
tection system and comes as standard.

Additional use of a pressure monitoring device also requires installation of
the provided protective relay.

The features and characteristics of the pressure monitoring device comply
with the respective applicable version of IEC publication 60214-1.

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 3 Product description

Diverter switch operations at the rated switching capacity or permitted over-
load do not cause the pressure-operated relay to trip.

The pressure-operated relay responds to a pressure change and not to gas
accumulation under the pressure-operated relay. Gas accumulation under
the pressure-operated relay is normal.

3.2.4.2.2 Design/versions

There are two variants of the pressure monitoring device:
▪ DW 2000 for vertical installation
▪ DW 2000 for horizontal installation

The housing and the cover cap of the pressure monitoring device consist of
lightweight, corrosion-resistant metal.

Figure 9: Snap-action switch and pressure measuring element

1 Snap-action switch 2 Pressure measuring element

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3 Product description

Figure 10: Pressure monitoring device with cover cap and ventilation

1 Ventilation 2 Cover cap

3.2.4.3 Rupture disk

The rupture disk is a pressure relief device without signaling contact in ac-
cordance with IEC 60214-1 and is located in the on-load tap-changer head
cover.

The rupture disk responds to a defined overpressure in the oil compartment
of the on-load tap-changer.

3.2.4.4 Pressure relief device MPreC®

On request, MR will supply a pre-fitted MPreC® pressure relief device in
place of the rupture disk. This device responds to a defined overpressure in
the oil compartment of the on-load tap-changer.

The on-load tap-changer therefore meets the requirements of IEC 60214-1
regarding pressure relief devices.

3.2.4.5 Temperature monitoring

The temperature monitoring system monitors the temperature of the insulat-
ing fluid in the oil compartment of the on-load tap-changer.

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 3 Product description

3.3 Drive shaft

3.3.1 Function description
The drive shaft is the mechanical connection between the drive and the on-
load tap-changer/de-energized tap-changer.

The bevel gear changes the direction from vertical to horizontal.

Accordingly, the vertical drive shaft has to be mounted between drive and
bevel gear, and the horizontal drive shaft between bevel gear and on-load
tap-changer or de-energized tap-changer.

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3 Product description

3.3.2 Design/versions
The drive shaft consists of a square tube and is coupled at each end by two
coupling brackets and one coupling bolt to the driving or driven shaft end of
the device to be connected.

Figure 11: Components of the drive shaft

1 Bevel gear 2 Hose clip
3 Telescopic protective tube 4 Coupling bracket
5 Square tube 6 Coupling bolt
7 Adapter ring 8 Protective cover

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 3 Product description

3.3.2.1 Drive shaft without cardan joint and without insulator

Figure 12: Drive shaft without cardan joint and without insulator (= standard version)

Configuration V 1 min Intermediate bearing
Middle of hand crank – middle of 536 mm When the maximum value
bevel gear (maximum permissible of 2472 mm is exceeded, it
axial offset 2°) is necessary to use an in-
termediate bearing.
V 1 ≤ 2472 mm (without in-
termediate bearing)
V 1 > 2472 mm (with inter-
mediate bearing)

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3 Product description

3.3.2.2 Drive shaft without cardan joint and with insulator

Figure 13: Drive shaft without cardan joint and with insulator (= special model)

Configuration V 1 min Intermediate bearing
Middle of hand crank – middle of 706 mm When the maximum value
bevel gear (maximum permissible of 2472 mm is exceeded, it
axial offset 2°) is necessary to use an in-
termediate bearing.
V 1 ≤ 2472 mm (without in-
termediate bearing)
V 1 > 2472 mm (with inter-
mediate bearing)

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 3 Product description

3.3.2.3 Drive shaft with cardan joints, without insulator

Figure 14: Drive shaft with cardan joints, without insulator (= special model)

Configuration V 1 min [mm] Intermediate bearing for
[mm]
Middle of hand crank – middle of 798 V 1 > 2564
bevel gear (maximum permissible
axial offset 20°)

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3 Product description

3.3.2.4 Drive shaft with cardan joints, with insulator

Figure 15: Drive shaft with cardan joints, with insulator (= special model)

Configuration V 1 min [mm] Intermediate bearing for
[mm]
Middle of hand crank – middle of 978 V 1 > 2772
bevel gear (maximum permissible
axial offset 20°)

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 3 Product description

3.4 OF 100 Oil Filter Unit
The purpose of the OF 100 oil filter unit is to clean the on-load tap-changer's
insulating fluid with the paper filter insert and to clean and dry the fluid with
the combined filter insert.

For on-load tap-changers where the number of tap-change operations per
year is higher than 15,000, we recommend the use of the OF 100 oil filter
unit with paper filter insert. This can extend the intervals between mainte-
nance.

For more information, consult the MR operating instructions "OF 100 oil filter
unit".

When using the OILTAP® V III 200 D and V III 350 D on-load tap-changers
in countries with a tropical or subtropical climate where the relative humidity
is extremely high and the temperature in the oil conservator usually falls be-
low the dew point every day, we recommend you use an OF 100 oil filter unit
with combined filter insert to maintain the dielectric properties of the insulat-
ing fluid. If, under such circumstances, the highest operating voltage be-
tween the phases of the on-load tap-changer is > 55 kV, you must use the
OF 100 oil filter unit with combined filter insert.

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4 Packaging, transport and storage

4 Packaging, transport and storage

4.1 Packaging
The products are sometimes supplied with sealed packaging and sometimes
in a dry state, depending on requirements.

Sealed packaging surrounds the packaged goods with plastic foil on all
sides.

Products that have also been dried are identified by a yellow label on the
sealed packaging. In the dry state, delivery is also possible in a transport
container.

The information in the following sections should be applied as appropriate.

4.1.1 Suitability

NOTICE Property damage due to incorrectly stacked crates!
Stacking the crates incorrectly can lead to damage to the packaged goods.
► The outer marking on the packaging states if, for example, the on-load
tap-changer or selector has been packed upright. Never stack these
crates.
► General rule: Do not stack crates above a height of 1.5 m.
► For other crates: Only stack up to 2 equally sized crates on top of one an-
other.

The packaging is suitable to ensure undamaged and fully functional means
of transportation in compliance with local transportation laws and regula-
tions.

The packaged goods are packed in a sturdy crate. This crate ensures that,
when in the intended transportation position, the packaged goods are stabi-
lized to prevent impermissible changes in position, and that none of the parts
touch the loading surface of the means of transport or touch the ground after
unloading.

Sealed packaging surrounds the packaged goods with plastic foil on all
sides. The packaged goods are protected from humidity using a desiccant.
The plastic foil was bonded after the desiccant is added.

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 4 Packaging, transport and storage

4.1.2 Markings
The packaging bears a signature with instructions for safe transport and cor-
rect storage. The following symbols apply to the shipment of non-hazardous
goods. Adherence to these symbols is mandatory.

Protect against Top Fragile Attach lifting Center of mass
moisture gear here
Table 4: Shipping pictograms

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4 Packaging, transport and storage

4.2 Transportation, receipt and handling of shipments
WARNING Danger of death or severe injury!
Danger of death or serious injuries due to tipping or falling load.
► Only transport the crate when closed.
► Do not remove the securing material used in the crate during transport.
► If the product is delivered on a pallet, secure it sufficiently.
► Only trained and authorized persons may select the sling gear and se-
cure the load.
► Do not walk under the suspended load.
► Use means of transport and lifting gear with a sufficient carrying capacity
in accordance with the weight stated on the delivery slip.

In addition to oscillation stress, jolts must also be expected during trans-
portation. In order to prevent possible damage, avoid dropping, tipping,
knocking over and colliding with the product.

If a crate tips over, falls from a certain height (e.g. when slings tear) or is
subject to an unbroken fall, damage must be expected regardless of the
weight.

Every delivered shipment must be checked for the following by the recipient
before acceptance (acknowledgment of receipt):
▪ Completeness based on the delivery slip
▪ External damage of any type

The checks must take place after unloading when the crate or transport con-
tainer can be accessed from all sides.

Visible damage If external transport damage is found upon receipt of the shipment, proceed
as follows:
▪ Immediately record the identified transport damage in the shipping docu-
ments and have this countersigned by the carrier.
▪ In the event of severe damage, total loss or high damage costs, immedi-
ately notify the manufacturer and the relevant insurance company.
▪ After identifying damage, do not modify the condition of the shipment fur-
ther and retain the packaging material until an inspection decision has
been made by the transport company or the insurance company.
▪ Record the details of the damage immediately on site together with the
carrier involved. This is essential for any claim for damages.
▪ Photograph damage to packaging and packaged goods. This also applies
to signs of corrosion on the packaged goods due to moisture inside the
packaging (rain, snow, condensation).
▪ NOTICE! Damage to packaged goods due to damaged sealed packag-
ing. If the product is delivered in sealed packaging, check the sealed
packaging immediately. If the sealed packaging is damaged, do not under

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 4 Packaging, transport and storage

any circumstances install or commission the packaged goods. Either re-
dry the dried packaged goods as per the operating instructions, or contact
the manufacturer to agree on how to proceed.
▪ Identify the damaged parts.

Hidden damage When damages are not determined until unpacking after receipt of the ship-
ment (hidden damage), proceed as follows:
▪ Make the party responsible for the damage liable as soon as possible by
telephone and in writing, and prepare a damage report.
▪ Observe the time periods applicable to such actions in the respective
country. Inquire about these in good time.

With hidden damage, it is very hard to make the transportation company (or
other responsible party) liable. Any insurance claims for such damages can
only be successful if relevant provisions are expressly included in the insur-
ance terms and conditions.

4.3 Storage of shipments

Packaged goods dried by Maschinenfabrik Reinhausen

Upon receipt of the shipment, immediately remove the packaged goods
dried by Maschinenfabrik Reinhausen from the sealed packaging and store
air-tight in dry insulating fluid until used if the packaged goods were not sup-
plied in insulating fluid.

Non-dried packaged goods

Non-dried packaged goods but with a functional sealed packaging can be
stored outdoors when the following conditions are complied with.

When selecting and setting up the storage location, ensure the following:
▪ Protect stored goods against moisture (flooding, water from melting snow
and ice), dirt, pests such as rats, mice, termites and so on, and against
unauthorized access.
▪ Store the crates on timber beams and planks as a protection against ris-
ing damp and for better ventilation.
▪ Ensure sufficient carrying capacity of the ground.
▪ Keep entrance paths free.
▪ Check stored goods at regular intervals. Also take appropriate action after
storms, heavy rain or snow and so on.

Protect the packaging foil from direct sunlight so that it does not disintegrate
under the influence of UV rays, which would cause the packaging to lose its
sealing function.

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4 Packaging, transport and storage

If the product is installed more than 6 months after delivery, suitable mea-
sures must be taken without delay. The following measures can be used:
▪ Correctly regenerate the drying agent and restore the sealed packaging.
▪ Unpack the packed goods and store in a suitable storage space (well ven-
tilated, as dust-free as possible, humidity < 50% where possible).

4.4 Unpacking shipments and checking for transportation
damages
▪ NOTICE! Damage to packaged goods due to ineffectively sealed packag-
ing. Transport the packaged crate to the place where the packaged goods
are to be installed. Do not open the sealed packaging until just before in-
stallation.
▪ WARNING! Serious injuries and damage to the packaged goods due
to the packaged goods tipping out. Place the packaged goods in an up-
right crate and protect it from tipping out.
▪ Unpack the packaged goods and check the condition.
▪ Check the completeness of the accessories kit using the delivery slip.

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 5 Mounting

5 Mounting

5.1 Preparatory work
Perform the work stated below before installing the on-load tap-changer in
the transformer.

5.1.1 Fitting mounting flange on transformer cover
A mounting flange is required for fitting the on-load tap-changer head on the
transformer cover. This can be supplied as an option or can be produced by
the customer. Mounting flanges made by the customer must comply with the
installation drawings in the appendix.
► NOTICE! Fit mounting flange on transformer cover (pressure tight).En-
sure that the sealing face makes complete contact and is not damaged.

Figure 16: Mounting flange

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5 Mounting

5.1.2 Fitting stud bolts on mounting flange
To attach the stud bolts to the mounting flange, use a tracing template. This
can be provided upon request free of charge for the initial installation of the
on-load tap-changer.
1. Place tracing template on mounting flange and use the four markings to
align.
2. Fit stud bolts on mounting flange.

Figure 17: Stud bolt

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 5 Mounting

5.2 Installing the on-load tap-changer in the transformer
(standard version)

5.2.1 Fastening on-load tap-changer on transformer cover
1. WARNING! Place on-load tap-changer on a level surface and secure
it against tipping. An unstably positioned on-load tap-changer may tip, re-
sulting in serious injuries and damage.
2. Remove red-colored packaging material and transport material from on-
load tap-changer.
3. Ensure that the on-load tap-changer is in the adjustment position. The ad-
justment position is indicated in the on-load tap-changer connection dia-
gram included in delivery.

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5 Mounting

4. NOTICE! Unsuitable gaskets lead to leakage of insulating fluid and there-
fore to damage to the on-load tap-changer. Clean the sealing surfaces on
the mounting flange and on-load tap-changer head. Place a gasket
suitable for the insulating fluid used on the mounting flange.

Figure 18: Cleaning the sealing surfaces

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 5 Mounting

5. NOTICE! Lift the on-load tap-changer by hooking up the on-load tap-
changer head and carefully lower it into the cover opening of the trans-
former. When lowering, take care not to damage the connection contacts.

Figure 19: Lowering on-load tap-changer

6. Check that the on-load tap-changer head is mounted in the position speci-
fied by the design.

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5 Mounting

7. Screw the on-load tap-changer head to the mounting flange. The tighten-
ing torque depends on the screw connection elements used.

Figure 20: On-load tap-changer head

5.2.2 Connecting the tap winding and on-load tap-changer take-off
lead

NOTICE Damage to the on-load tap-changer!
Connecting leads which place mechanical strain on the on-load tap-changer
will damage the on-load tap-changer!
► Establish and secure connections with care.
► Do not twist connection contacts.
► Connect connecting leads without warping or deforming.
► If necessary use an expansion loop for connecting leads.

1. Connect the tap winding and on-load tap-changer take-off lead in accor-
dance with the connection diagram included with the delivery.
2. If connection leads have to cross the open surface of the oil compartment/
change-over selector, there must be a clearance of 50 mm between the
connecting leads and the surface of the oil compartment/change-over se-
lector.

The designations of the on-load tap-changer's connection contacts are
shown in the connection diagram. The connection contacts are provided with
horizontal or vertical through-holes (see appendix):
▪ OILTAP® V 350: 11 mm diameter for M10 screws
▪ OILTAP® V 200: 9 mm diameter for M8 screws (M8 screws on tap selec-
tor, M10 screws on change-over selector and take-off terminals)

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 5 Mounting

5.2.3 Performing transformer ratio test before drying

NOTICE Damage to the on-load tap-changer!
Damage to the on-load tap-changer due to transformer ratio test being in-
correctly performed.
► Do not perform more than 250 tap-change operations on the on-load tap-
changer. If more than 250 tap-change operations are to be performed,
completely fill the oil compartment with insulating fluid and lubricate slid-
ing surfaces of contacts on the selector and selector gear with insulating
fluid.
► Only switch the on-load tap-changer from one operating position to the
next via the upper gear unit. You can use a short tube (diameter 25 mm)
with screwed-in coupling bolt (diameter 12 mm) with a hand wheel or
crank for this, for example. When using a drill, do not exceed a maximum
speed of 250 rpm.
► Always check the operating position reached through the inspection win-
dow in the on-load tap-changer head cover. Never overshoot the end po-
sitions, which are indicated in the connection diagram supplied with the
delivery.
► For multiple-column applications with a shared drive, link all on-load tap-
changer heads to one another using the horizontal drive shaft parts.

When actuating the change-over selector, a higher torque is required.

1. Switch the on-load tap-changer into the desired operating position. The di-
verter switch operation can be heard distinctly.
2. NOTICE! An incomplete tap-change operation may damage the on-load
tap-changer. After operating the diverter switch, continue to crank the
drive shaft of the upper gear unit for 2.5 revolutions in the same direction
in order to correctly complete the tap-change operation.
3. Perform the transformer ratio test.
4. Repeat the transformer ratio test in all operating positions.
5. Switch the on-load tap-changer into adjustment position (see the accom-
panying connection diagram for the on-load tap-changer).

After the transformer ratio test, open the kerosene drain plug in the oil com-
partment if the on-load tap-changer is to be dried with kerosene in the trans-
former tank. After drying, the diverter switch insert must be removed, the
kerosene drain plug in the oil compartment closed and the diverter switch
insert refitted.

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5 Mounting

5.2.4 Performing DC resistance measurement on transformer
The measured DC current is normally restricted to 10% of the rated current
of the measured transformer winding in order to prevent the winding from
overheating.

Perform the DC resistance measurement in various on-load tap-changer op-
erating positions. You need to distinguish here whether the measured cur-
rent is interrupted when changing operating position or not.
Status of oil compart- Without interruption in With interruption (mea-
ment measured current sured current = 0 A be-
fore change of operating
position)
Oil compartment empty Maximum 10 A DC Maximum 50 A DC
Oil compartment filled with Maximum 50 A DC Maximum 50 A DC
insulating fluid
Table 5: Maximum permitted measured currents when performing DC resistance measurement
on transformer

5.2.5 Drying on-load tap-changer in autoclave

NOTICE Damage to the on-load tap-changer!
Moisture in the oil compartment reduces the dielectric strength of the insu-
lating fluid and thus leads to damage to the on-load tap-changer.
► Within 10 hours of drying, seal off oil compartment with on-load tap-
changer head cover.

Dry on-load tap-changer in accordance with the following instructions to en-
sure the dielectric values assured by MR for the on-load tap-changer.

If drying in an autoclave, the following methods are possible:
▪ Vacuum drying
▪ Vapor-phase drying

As an alternative to drying the on-load tap-changer in an autoclave, it can
also be dried in the transformer tank.

5.2.5.1 Vacuum-drying in the autoclave

If you wish to perform another transformer ratio test after drying, proceed as
described in the section "Performing transformer ratio test following dry-
ing" [►Section 5.2.8, Page 87].

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 5 Mounting

5.2.5.1.1 Moving on-load tap-changer to adjustment position
► Move the on-load tap-changer into the adjustment position (see supplied
connection diagram of the on-load tap-changer).

Figure 21: Adjustment position

5.2.5.1.2 Removing on-load tap-changer head cover

WARNING Danger of explosion!
Explosive gases under the on-load tap-changer head cover can deflagrate
or explode and result in severe injury or death.
► Ensure that there are no ignition sources such as open flames, hot sur-
faces or sparks (e.g. caused by the build-up of static charge) in the imme-
diate surroundings and that none occur.
► De-energize all auxiliary circuits (for example tap-change supervisory de-
vice, pressure relief device, pressure monitoring device) before removing
the on-load tap-changer head cover.
► Do not operate any electrical devices during the work (e.g. risk of sparks
from impact wrench).

NOTICE Damage to the on-load tap-changer!
Small parts in the oil compartment may block the diverter switch insert,
thereby damaging the on-load tap-changer.
► Ensure that parts do not fall into the oil compartment.
► Check that all small parts are accounted for.

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5 Mounting

1. Ensure that the inspection window is sealed off with the cover.
2. Remove the screws and washers from the on-load tap-changer head
cover.

Figure 22: On-load tap-changer head cover

3. Lift off the on-load tap-changer head cover.

Figure 23: On-load tap-changer head cover

5.2.5.1.3 Drying the on-load tap-changer

NOTICE Damage to the on-load tap-changer head cover and on-load tap-
changer accessories.
Both the on-load tap-changer head cover and the on-load tap-changer ac-
cessories will become damaged if they are dried.
► Never dry the on-load tap-changer head cover or the following acces-
sories: motor-drive unit, drive shaft, protective relay, pressure monitoring
device, pressure relief device, bevel gear, temperature sensor, oil filter
unit.

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 5 Mounting

1. Heat up the on-load tap-changer in air at atmospheric pressure with a
temperature increase of approximately 10 °C/h to a final temperature of
maximum 110 °C.
2. Pre-dry the on-load tap-changer in circulating air at a maximum tempera-
ture of 110 °C for a period of at least 20 hours.
3. Vacuum-dry on-load tap-changer at between 105 °C and maximum
125 °C for at least 50 hours.
4. Residual pressure of no more than 10-3 bar.

5.2.5.1.4 Securing on-load tap-changer head cover

NOTICE Damage to the on-load tap-changer!
A missing or damaged o-ring as well as unclean sealing surfaces lead to in-
sulating fluid escaping and therefore to damage to the on-load tap-changer.
► Ensure that the o-ring is positioned untwisted in the on-load tap-changer
head cover.
► Ensure that the o-ring does not become damaged when mounting the
cover.
► Ensure that the sealing surfaces on the on-load tap-changer head cover
and on-load tap-changer head are clean.

1. Align the on-load tap-changer head cover in such a way that the red trian-
gular markings on the on-load tap-changer head and the on-load tap-
changer head cover are aligned.

Figure 24: On-load tap-changer head cover

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5 Mounting

2. Screw the on-load tap-changer head cover onto the on-load tap-changer
head.

Figure 25: On-load tap-changer head cover

5.2.5.2 Vapor-phase drying in the autoclave

If you wish to perform another transformer ratio test after drying, proceed as
described in the section "Performing transformer ratio test following dry-
ing" [►Section 5.2.8, Page 87].

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 5 Mounting

5.2.5.2.1 Moving on-load tap-changer to adjustment position
► Move the on-load tap-changer into the adjustment position (see supplied
connection diagram of the on-load tap-changer).

Figure 26: Adjustment position

5.2.5.2.2 Removing on-load tap-changer head cover

WARNING Danger of explosion!
Explosive gases under the on-load tap-changer head cover can deflagrate
or explode and result in severe injury or death.
► Ensure that there are no ignition sources such as open flames, hot sur-
faces or sparks (e.g. caused by the build-up of static charge) in the imme-
diate surroundings and that none occur.
► De-energize all auxiliary circuits (for example tap-change supervisory de-
vice, pressure relief device, pressure monitoring device) before removing
the on-load tap-changer head cover.
► Do not operate any electrical devices during the work (e.g. risk of sparks
from impact wrench).

NOTICE Damage to the on-load tap-changer!
Small parts in the oil compartment may block the diverter switch insert,
thereby damaging the on-load tap-changer.
► Ensure that parts do not fall into the oil compartment.
► Check that all small parts are accounted for.

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