Baxi Potterton Promax Combi HE Plus A Range G C No 47 393 22 User Manual

You can rely on

Installation & Service Instructions

Promax Combi

HE Plus A

Range

Condensing

Combination Boiler

These instructions include the Benchmark Commissioning

Checklist and should be left with the user for safe keeping.

Installer Notification Guidelines

Choose Building

Regulations Notification

Route

Competent Person's

Building Control

Self Certification Scheme

Install and Commission this

appliance to manufacturer's

instructions

Contact your relevant Local

Authority Building Control

(LABC) who will arrange

an inspection or contact

a government approved

inspector

Complete the

Benchmark Checklist

If you notify via the ‘Gas Safe

the Building Regulations

Install and Commission this

appliance to manufacturer's

instructions

certificate on members’ behalf

Scheme Members only

Call ‘Gas Safe Register’ on:

0800 408 5577

Complete the

Benchmark Checklist

or log onto:

www.gassaferegister.co.uk

within 10 days

You must ensure that the

certificate number issued by

the ‘Gas Safe Register’ is written

onto the Benchmark Checklist

‘Gas Safe Register’ will issue a

Building Regulations Compliance

Certificate to the property owner

and inform the relevant LABC

LABC will record the data

and will issue a

certificate of compliance

Legislation

IMPORTANT - Installation, Commissioning, Service & Repair

This company declare that no substances harmful to health

are contained in the appliance or used during appliance

manufacture.

This appliance must be installed in accordance with the manufacturer’s instructions and

the regulations in force. Read the instructions fully before installing or using the

appliance.

The appliance is suitable only for installation in GB and IE and

should be installed in accordance with the rules in force, and

only used in a suitably ventilated location.

In GB, this must be carried out by a competent person as stated in the Gas Safety

(Installation & Use) Regulations.

In GB, the installation must be carried out by a Gas Safe

Registered Installer. It must be carried out in accordance with

the relevant requirements of the:

Definition of competence: A person who works for a Gas Safe registered company

and holding current certificates in the relevant ACS modules, is deemed competent.

• Gas Safety (Installation & Use) Regulations.

• The appropriate Building Regulations either The Building

Regulations, The Building Regulations (Scotland), Building

Regulations (Northern Ireland).

• The Water Fittings Regulations or Water Byelaws in

Scotland.

All Gas Safe registered engineers carry an ID card with their licence number and a

photograph. You can check your engineer is registered by telephoning

0800 408 5500 or online at www.gassaferegister.co.uk

• The Current I.E.E. Wiring Regulations.

In IE, this must be carried out by a competent person as stated in I.S. 813 “Domestic

Gas Installations”.

Where no specific instructions are given, reference should be

made to the relevant British Standard Code of Practice.

The addition of anything that may interfere with the normal operation of the appliance

without express written permission from the manufacturer or his agent could invalidate

the appliance warranty. In GB this could also infringe the Gas Safety (Installation and

Use) Regulations.

In IE, the installation must be carried out by a competent

Person and installed in accordance with the current edition of

I.S. 813 ‘Domestic Gas Installations’, the current Building

Regulations and reference should be made to the current ETCI

rules for electrical installation.

Warning - Check the information on the data plate is compatible with local supply

All systems must be thoroughly flushed and treated with

inhibitor (see section 6.2).

conditions.

Codes of Practice - refer to the most recent version

In GB the following Codes of Practice apply:

Standard

BS 6891

BS 5546

Scope

Gas Installation.

Installation of hot water supplies for domestic

purposes.

Heating systems in buildings.

Installation & commissioning of water based

heating systems.

Installation of gas fired hot water boilers.

Flues.

Ventilation.

Expansion vessels and ancillary equipment for

sealed water systems.

Treatment of water in domestic hot water

central heating systems.

The boiler meets the requirements of Statutory Instrument “ The Boiler (Efficiency)

Regulations 1993 N^o3083” and is deemed to meet the requirements of Directive

92/42/EEC on the energy efficiency requirements for new hot water boilers fired with

liquid or gaseous fuels:-

BS EN 12828

BS EN 14336

BS 6798

BS 5440 Part 1

BS 5440 Part 2

BS 7074

Type test for purpose of Regulation 5 certified by:

Notified Body 0085.

BS 7593

Product/Production certified by:

Notified Body 0086.

In IE the following Codes of Practice apply:

Standard

Scope

I.S. 813

Domestic Gas Installations.

The following standards give valuable additional information;

BS 5546

Installation of hot water supplies for domestic

purposes.

For GB/IE only.

BS EN 12828

BS EN 14336

Heating systems in buildings.

Installation & commissioning of water based

heating systems.

BS 7074

BS 7593

Expansion vessels and ancillary equipment for

sealed water systems.

Treatment of water in domestic hot water

central heating systems.

Safe Manual Handling

General

The following advice should be adhered to, from when first handling the boiler to the final stages of installation, and also during maintenance.

Most injuries as a result of inappropriate handling and lifting are to the back, but all other parts of the body are vulnerable, particularly shoulders, arms and hands.

Health & Safety is the responsibility of EVERYONE.

There is no ‘safe’ limit for one man - each person has different capabilities. The boiler should be handled and lifted by TWO PEOPLE.

Do not handle or lift unless you feel physically able.

Wear appropriate Personal Protection Equipment e.g. protective gloves, safety footwear etc.

Preparation

Co-ordinate movements - know where, and when, you are both going.

Minimise the number of times needed to move the boiler - plan ahead.

Always ensure when handling or lifting the route is clear and unobstructed. If possible avoid steps, wet or slippery surfaces, unlit areas etc. and take special care

on ladders/into lofts.

Technique

When handling or lifting always use safe techniques - keep your back straight, bend your knees. Don’t twist - move your feet, avoid bending forwards and

sideways and keep the load as close to your body as possible.

Where possible transport the boiler using a sack truck or other suitable trolley.

Always grip the boiler firmly, and before lifting feel where the weight is concentrated to establish the centre of gravity, repositioning yourself as necessary. See the

‘Installation’ section of these instructions for recommended lift points.

Remember

The circumstances of each installation are different. Always asses the risks associated with handling and lifting according to the individual conditions.

If at any time when installing the boiler you feel that you may have injured yourself STOP !!

DO NOT ‘work through’ the pain - you may cause further injury.

IF IN ANY DOUBT DO NOT HANDLE OR LIFT THE BOILER - OBTAIN ADVICE OR ASSISTANCE BEFORE PROCEEDING !!

CONTENTS

Section

1.0

Page

Introduction

2.0

3.0

4.0

5.0

6.0

7.0

8.0

9.0

General Layout

Appliance Operation

Technical Data

Dimensions and Fixings

System Details

Site Requirements

Flue Options

Plume Displacement

10.0 Installation

11.0 Commissioning

12.0 Completion

13.0 Servicing

14.0 Changing Components

15.0 Setting the Gas Valve

16.0 Electrical

17.0 Short Parts List

18.0 Fault Finding

19.0 Pages for Notes

Benchmark Checklist

1.0 Introduction

1.1

Description

1. The Potterton Promax Combi HE Plus A is a fully automatic

gas fired wall mounted condensing combination boiler. It is

room sealed and fan assisted, and will serve central heating and

mains fed domestic hot water.

Case Front Panel

2. The boiler is set to give a maximum output of :-

24 models - 24 kW DHW

21 kW CH (Condensing)

28 models - 28 kW DHW

25.9 kW CH (Condensing)

33 models - 33 kW DHW

30.3 kW CH (Condensing)

3. It is designed for use on Natural Gas (G20).

4. The boiler is suitable for use only on fully pumped sealed

heating systems. Priority is given to domestic hot water.

5. The boiler data badge gives details of the model, serial

number and Gas Council number and is situated on the inner

door panel or the control box. It is visible when the case front

panel is removed (Fig. 1).

6. The boiler model name and serial number are also shown

on the information label on the back of the facia door. This is

for user reference.

Control Box

Facia Door

7. The boiler is intended to be installed in residential /

commercial / light industrial E.M.C. environments on a

governed meter supply only.

Data Badge

Fig. 1

8. The boiler must be installed with one of the purpose

designed flues such as the standard horizontal flue kit, part no.

5118489.

Information Label

9. All systems must be thoroughly flushed and treated with

inhibitor (see section 6.2).

Important: If the boiler is installed at a high point in the

system it is strongly recommended that Automatic Air

Vent Kit 720004701 is fitted.

1.2

Contents of Pack

1. Boiler Unit

2. Wall Plate (inc. taps)

3. Set of Pipes (inc. nuts)

4. Template & Quick Fit Guide

5. Literature Pack

2.0 General Layout

2.1

Layout

Expansion Vessel

Automatic Air Vent

DHW Plate Heat Exchanger / Automatic Bypass

Circulation Pump

Drain Off Point

Pressure Relief Valve

Optional Integral Timer Position

Central Heating System Pressure Gauge

PCB

10.

11.

12.

13.

14.

15.

16.

17.

18.

19.

20.

21.

22.

23.

24.

25.

26.

27.

Control Box

3-Way Valve Assembly

Condensate Trap

Flame Sensing Electrode

Spark Electrode

Primary Heat Exchanger

Fan Assembly

On/Off/Reset Selector Switch

Central Heating Temperature Control

Hot Water Temperature Control

Venturi

Air/Gas Collector

Combustion Box Cover & Burner

Igniter

Burner On Light

Central Heating Mode Light

Domestic Hot Water Mode Light

Display

Reset

bar

3.0 Appliance Operation

Central Heating Circuit

3.1

Central Heating Mode (Fig. 2)

1. With a demand for heating, the pump circulates water

through the primary circuit.

2. Once main burner ignites the fan speed controls the gas

rate to maintain the heating temperature measured by the

temperature sensor.

3. When the flow temperature exceeds the setting

temperature, a 3 minute delay occurs before the burner

relights automatically (anti-cycling). The pump continues to

run during this period.

4. When the demand is satisfied the burner is extinguished

and the pump continues to run for a period of 3 minutes

(Pump Overrun).

3.2

Domestic Hot Water Mode (Fig. 3)

1. Priority is given to the domestic hot water supply. A

demand at a tap or shower will override any central heating

requirement.

2. The flow of water will operate the Hall Effect Sensor

which requests the 3 way valve to change position. This will

allow the pump to circulate the primary water through the

DHW plate heat exchanger.

Fig. 2

Key

Primary Heat Exchanger

Burner

Ignition Electrodes

Flame Sensing Electrode

Gas Valve

Pump

Automatic Air Vent

Plate Heat Exchanger/Automatic By-pass

Flow Sensor with Filter & Regulator

15 Domestic Hot Water Outlet

16 Heating Flow

17 Pressure Gauge

18 Water Pressure Sensor

20 Fan

21 Diverter Valve Assembly

22 Diverter Valve Motor

23 Domestic Hot Water Flow Temperature Sensor

24 Safety Thermostat

25 Central Heating Temperature Sensor

26 Expansion Vessel

3. The burner will light automatically and the temperature of

the domestic hot water is controlled by the temperature

sensor.

4. When the domestic hot water demand ceases the burner

will extinguish and the diverter valve will remain in the

domestic hot water mode, unless there is a demand for

central heating.

10 Pressure Relief Valve

11 Boiler Drain Point

12 Heating Return

13 Cold Water Inlet On/Off Valve and Filter

14 Gas Inlet

27 Heat Exchanger Air Vent

IMPORTANT: When the selector switch is in the ‘0’

(Off) position the electrical supply to the boiler is isolated.

The boiler will not operate and the integral timer will

require resetting once the selector switch is set to either

Position (i) or Position (ii).

Domestic Hot Water Circuit

3.3

Frost Protection Mode

1. The frost protection mode is integral to the appliance and

functions only with the selector switch (see Section 2.1) in

the domestic hot water and central heating position. If the

system temperature falls below 5° C then the boiler will fire

on its minimum setting until a flow temperature of 30° C is

reached. Further protection can be incorporated by using a

system frost thermostat.

3.4

Pump Protection

1. With the selector switch (see Section 2.1) in either the

central heating or central heating and domestic hot water

position, the pump will automatically operate for 1 minute in

every 24 hours to prevent sticking.

Fig. 3

4.0 Technical Data

4.1

Promax Combi 24, 28 & 33

Appliance Type

C₁₃

C₃₃

C₅₃

NO Class

Inlet Pressure (Natural Gas - G20)

mbar 20

Appliance Category

Heat Input CH (Net)

CAT I

Central Heating Primary Circuit

Pressures

Injector (Natural Gas - G20)

Max

20.5

24.7

28.9

Min

bar

2.5

0.5

1-2

7.5mm (24&28 model) 12mm(33 model)

24 model

28 model

33 model

Safety Discharge

Max Operating

Min Operating

Recommended Operating Range

Electrical Supply

(Appliance must be connected to an

earthed supply)

230V~ 50H

9.7

Heat Input CH (Gross)

Max

22.7

27.4

32.1

Min

7.8

DHW Circuit

Pressures

Max Operating

Min Operating

bar

Power Consumption

155W (24&28 model) 160W(33 model)

24 model

28 model

33 model

0.15

Electrical Protection

IPX5D

10.8

Flow Rates

(24)

l/min

(28)

l/min

(33)

l/min

Heat Output CH (Non-Condensing)

External Fuse Rating

Max

Min

6.8

8.7

9.4

DHW Flow Rate

@ 30^oCRise

Internal Fuse Rating

Condensate Drain

To accept 21.5mm (³/⁴in) plastic waste pipe

F2L

11.43

9.8

13.3

11.5

15.7

13.5

24 model

28 model

33 model

DHW Flow Rate

@ 35^oCRise

Min Working

DHW Flow Rate

Flue Terminal

Dimensions

Diameter

Projection

100mm

125mm

Heat Output CH (Condensing)

Max

Min

7.4

Pump

Available Head

Connections

Gas Supply

Central Heating Flow

Central Heating Return

Cold Water Mains Inlet

DHW Flow

copper tails

22mm

24 model

28 model

33 model

See graph below

- (For Central Heating

25.9

30.3

9.5

22mm

15mm

Expansion Vessel

only. Integral with appliance)

10.2

bar

0.5

Heat Input DHW (Net)

Max

24.7

28.9

Min Pre-charge Pressure

24 model

28 model

33 model

Pressure Relief Discharge

15mm

(24,28) (33)

Outercase Dimensions

Casing Height

Overall Height Inc Flue Elbow

Casing Width

Max Capacity of

CH System

litre

125

litre

155

- 780mm

- 965mm

- 450mm

- 345mm

Heat Input DHW (Gross) Max

24 model

28 model

33 model

27.4

32.1

37.7

Primary Water Content

of Boiler (unpressurised)

Casing Depth

2.5

2.8

Clearances

Temperatures

C.H. Flow Temp (adjustable)

Above Casing

Below Casing

Front

L.H. Side

R.H. Side

200 mm Min

150 mm Min*

450 mm Min (For Servicing)

5 mm Min (In Operation)

5 mm Min

Heat Output DHW

Max

25°C to 80°C max (± 5°C)

24 model

28 model

33 model

D.H.W. Flow Temp (adjustable)

35°C to 60°C max (± 5°C)

dependent upon flow rate

5 mm Min (In Operation)

*This is MINIMUM recommended dimension. Greater

clearance will aid installation and maintenance.

Max Gas Rate (Natural Gas - G20)

(After 10 mins)

Weights (kg)

m³/h

2.6

3.1

3.6

(24) (28) (33)

Packaged Boiler Carton 48.6 49.2 51

Installation Lift Weight 43.6 44.2 46

24 model

28 model

33 model

Pump - Available Head

5.5

4.5

SEDBUK Declaration

SAP 2005 Seasonal Efficiency for all

models is 91.1%

3.5

This value is used in the UK Government’s Standard

Assessment Procedure (SAP) for energy rating of

dwellings. The test data from which it has been

calculated has been certified by 0087.

2.5

1.5

0.5

200

400

600

800

1000

1200

Flow Rate (l/h)

5.0 Dimensions and Fixings

Dimensions

A 780mm

At Least 1.5°

B 345mm

C 450mm

D 116mm Ø Min.

E 185mm

(207mm for 80/125mm

flue systems)

F 145mm

G 131mm

H 180mm

360° Orientation

Tube Ø 100mm

Tap Rail

32.5 mm

Condensate

Drain

65 mm

Cold Water

65 mm

Heating

Return

(22mm)

Pressure Relief

Heating

Flow

(22mm)

Domestic Hot

Water Outlet

(15mm)

Gas

Inlet

(22mm)

Valve

(15mm)

Inlet

(15mm)

6.0 System Details

6.1

Information

1. The Promax Combi Condensing Combination Boiler is a

‘Water Byelaws Scheme - Approved Product’.

To comply with the Water Byelaws your attention is drawn to

the following installation requirements and notes (IRN).

a) IRN 001 -

See text of entry for installation

requirements and notes.

Byelaw 14.

b) IRN 302 -

2. Reference to the WRc publications, ‘Water fittings and

materials directory’ and ‘Water supply byelaws guide’ give full

details of byelaws and the IRNs.

6.2

Central Heating Circuit

1. The appliance is suitable for fully pumped SEALED SYSTEMS

ONLY.

Treatment of Water Circulating Systems

• All recirculatory water systems will be subject to corrosion

unless an appropriate water treatment is applied. This means

that the efficiency of the system will deteriorate as corrosion

sludge accumulates within the system, risking damage to

pump and valves, boiler noise and circulation problems.

• When fitting new systems flux will be evident within the

system, which can lead to damage of system components.

• All systems must be thoroughly drained and flushed out

using, for example, Sentinel X300 or X400 or Fernox F3.

They should be used following the flushing agent

manufacturer’s instructions.

• System additives - corrosion inhibitors and flushing

agents/descalers should comply to BS7593 requirements, e.g.

Sentinel X100 and Fernox MB-1 which should be used

following the inhibitor manufacturer’s instructions.

• Full instructions are supplied with the products, for further

information contact Sentinel (0800 389 4670) or Fernox

(0870 870 0362)

Failure to flush and add inhibitor to the system will

invalidate the appliance warranty.

• It is important to check the inhibitor concentration after

installation, system modification and at every service in

accordance with the manufacturer’s instructions. (Test kits are

available from inhibitor stockists.)

• For information or advice regarding any of the above

contact Technical Enquiries.

6.3

Bypass

1. The boiler utilises the primary side of the DHW plate heat

exchanger as an automatic integral bypass.

6.4

System Control

1. The boiler is designed for use in a heating system that

incorporates external controls, i.e. a minimum of a timer

device.

2. Suitable timer kits are available as optional extras.

3. For optimum operating conditions and maximum economy

the fitting of a programmable room thermostat is

recommended.

6.0 System Details

6.5

System Filling and Pressurising (Fig. 4)

1. A filling point connection on the central heating return

pipework must be provided to facilitate initial filling and

pressurising and also any subsequent water loss

replacement/refilling.

Double

Check

Valve

Stop

Valve

Stop

Valve

2. There are connection points on the mains cold water inlet

and central heating return isolating taps (Fig. 5) to which the

optional filling loop kit (Part No. 248221) can be assembled.

Temporary

Hose

DHW

Mains

Inlet

Return

3. The filling method adopted must be in accordance with all

relevant water supply regulations and use approved

equipment.

Fig. 4

4. Your attention is drawn to:

for GB: Guidance G24.2 and recommendation R24.2 of the

Water Regulations Guide.

for IE: the current edition of I.S. 813 “Domestic Gas

Installations”.

Filling Loop

5. The sealed primary circuits may be filled or replenished by

means of a temporary connection between the circuit and a

supply pipe, provided a ‘Listed’ double check valve or some

other no less effective backflow prevention device is

permanently connected at the inlet to the circuit and the

temporary connection is removed after use.

Fig. 5

6.6

Expansion Vessel (Central Heating only)

1. The appliance expansion vessel is pre-charged to 0.5 bar.

Therefore, the minimum cold fill pressure is 0.5 bar. The

vessel is suitable for correct operation for system capacities up

to 125 litres (24, 28 models) 155 litres (33 models). For

greater system capacities an additional expansion vessel must

be fitted. For GB refer to BS 7074 Pt 1. For IE, the current

edition of I.S. 813 “Domestic Gas Installations”.

6.7

Pressure Relief Valve (Fig. 6)

1. The pressure relief valve is set at 3 bar, therefore all

pipework, fittings, etc. should be suitable for pressures in

excess of 3 bar and temperature in excess of 100°C.

2. The pressure relief discharge pipe should be not less than

15mm dia, run continuously downward, and discharge outside

the building, preferably over a drain. It should be routed in

such a manner that no hazard occurs to occupants or causes

damage to wiring or electrical components. The end of the

pipe should terminate facing down and towards the wall.

3. The discharge must not be above a window, entrance or

other public access. Consideration must be given to the

possibility that boiling water/steam could discharge from the

pipe.

Fig. 6

4. A remote relief valve kit is available to enable the boiler to

be installed in cellars or similar locations below outside

ground level (kit no. 5121379).

Pressure Relief Valve

Discharge Pipe

6.0 System Details

6.8

Domestic Hot Water Circuit (Fig. 7)

1. All DHW circuits, connections, fittings, etc. should be fully

in accordance with relevant standards and water supply

regulations.

Other Tap

Outlets

2. Your attention is drawn to:

for GB: Guidance G17 to G24 and recommendation R17 to

R24 of the Water Regulations Guide.

for IE: the current edition of I.S. 813 “Domestic Gas

Installations”.

Boiler

Expansion

Vessel*

3. The Water Regulations recommendations for England and

Wales prohibits backflow from appliances into the

Check

Valve*

wholesome water supply due to thermal expansion.

However this type of instantaneous combination boiler, with

less than 15 litres of stored capacity, does not require any

backflow prevention device as any thermal expansion is

accommodated within the appliance. It is possible in certain

circumstances that other cold water demands (e.g. washing

machines, flushing of W.C.s) may affect the DHW function

of the boiler. In these instances the fitting of a backflow

prevention device and expansion vessel is recommended.

Pressure Reducer

Valve*

To Hot

Taps

Stop Tap

* See 6.8 for instances when

these items may be required

4. Also if there is an existing check valve, loose jumpered

stop cock, water meter or water treatment device already

fitted to the wholesome water supply connected to the

boiler domestic hot water (DHW) inlet supply then a

suitable expansion device may be required.

Fig. 7

5. The boiler’s maximum working mains pressure is 8 bar,

therefore all pipework, connections, fittings, etc. should be

suitable for pressures in excess of 8 bar. A pressure reducing

valve must be fitted for pressures in excess of 8 bar. The

manufacturer of any outlet fittings, such as a shower valve,

may require a lower maximum pressure. The pressure

reduction must take account of all fittings connected to the

DHW system.

6.9

Showers

1. If a shower control is supplied from the appliance it

should be of the thermostatic or pressure balanced type.

Thermostatic type shower valves provide the best comfort

and guard against water at too high a temperature. Existing

controls may not be suitable - refer to the shower valve

manufacturer.

6.10

Hard Water Areas

1. If the area of the installation is recognised as a HARD

WATER AREA then a suitable device should be fitted to

treat the mains water supply to the boiler. Contact your

Water Distribution Company for advice on suitable devices.

7.0 Site Requirements

450mm

5mm Min

7.1

Location

1. The boiler may be fitted to any suitable wall with the flue

passing through an outside wall or roof and discharging to

atmosphere in a position permitting satisfactory removal of

combustion products and providing an adequate air supply.

The boiler should be fitted within the building unless

otherwise protected by a suitable enclosure i.e. garage or

outhouse. (The boiler may be fitted inside a cupboard-see

Section 7.3).

200mm Min

(300mm Min if

using 80/125mm

flueing system)

2. If the boiler is sited in an unheated enclosure then it is

recommended to leave the ON/OFF Selector Switch in the

domestic hot water and central heating position to give frost

protection.

780mm

3. If the boiler is fitted in a room containing a bath or shower

reference must be made to the relevant requirements.

In GB this is the current I.E.E. Wiring Regulations and Building

Regulations.

In IE reference should be made to the current edition of I.S.

813 “Domestic Gas Installations” and the current ETCI rules.

4. If the boiler is to be fitted into a building of timber frame

construction then reference must be made to the current

edition of Institute of Gas Engineers Publication IGE/UP/7

(Gas Installations in Timber Framed Housing).

150mm Min*

Fig. 8

*This is the MINIMUM recommended dimension. Greater

clearance will aid installation and maintenance.

At Least 1.5°

7.2

Clearances (Figs. 8 & 9)

1. A flat vertical area is required for the installation of the

boiler.

2. These dimensions include the necessary clearances around

the boiler for case removal, spanner access and air

movement. Additional clearances may be required for the

passage of pipes around local obstructions such as joists

running parallel to the front face of the boiler.

450mm Min

For Servicing

Purposes

5mm Min

In Operation

Fig. 9

7.0 Site Requirement

Gas Service Cock

7.3

Ventilation of Compartments

1. Where the appliance is installed in a cupboard or

compartment, no air vents are required.

2. BS 5440: Part 2 refers to room sealed appliances

installed in compartments. The appliance will run sufficiently

cool without ventilation.

7.4

Gas Supply

1. The gas installation should be in accordance with the

relevant standards. In GB this is BS 6891. In IE this is the

current edition of I.S. 813 “Domestic Gas Installations”.

Fig. 10

2. The connection to the appliance is a 22mm copper tail

located at the rear of the gas service cock (Fig. 10).

3. Ensure that the pipework from the meter to the

appliance is of adequate size. Do not use pipes of a smaller

diameter than the boiler gas connection (22mm).

Zone 2

Window

7.5

Electrical Supply

Recess

Zone 1

1. External wiring must be correctly earthed, polarised and

in accordance with relevant regulations/rules. In GB this is

the current I.E.E. Wiring Regulations. In IE reference should

be made to the current edition of ETCI rules.

Zone 2

Zone 0

2. The mains supply is 230V ~ 50H fused at 3A.

0.6 m

Window

Recess

NOTE: The method of connection to the electricity

supply must facilitate complete electrical isolation of the

appliance.

Zone 2

Connection may be via a fused double-pole isolator

with a contact separation of at least 3mm in all poles

and servicing the boiler and system controls only.

Fig. A

In GB Only

7.6

Bath & Shower Rooms

Ceiling

Window Recess

Zone 2

1. If the boiler is fitted in a room containing a bath or

shower and NOT FITTED with any optional integral timer

or thermostat, it can be fitted in zone 2, (Figs. A & B shows

zone dimensions for a bathtub. For other examples refer to

the Current I.E.E. Wiring Regulations) reference must be

made to the relevant requirements.

Outside Zones

2.25 m

Zone 1

Zone 0

Zone 2

In GB this is the current I.E.E. Wiring Regulations and

Building Regulations.

In IE reference should be made to the current edition of I.S.

813 “Domestic Gas Installations” and the current ETCI

rules.

0.6 m

Fig. B

In GB Only

7.0 Site Requirements

7.7

Condensate Drain

Termination to an internal soil and

vent pipe

Boiler

FAILURE TO INSTALL THE CONDENSATE DISCHARGE

PIPEWORK CORRECTLY WILL AFFECT THE RELIABLE

OPERATION OF THE BOILER

The condensate discharge pipe MUST NOT RISE at any point

along its length. There MUST be a fall of AT LEAST 2.5°

(50mm per metre) along the entire run.

1. The condensate outlet will accept 21.5mm (³/⁴in) plastic

overflow pipe which should generally discharge internally into

the household drainage system. If this is not possible, discharge

into an outside drain is acceptable.

450mm min

Fig. 13

2. Ensure the discharge of condensate complies with any

national or local regulations in force.

External termination via internal discharge

branch

BS 6798 & Part H1 of the Building Regulations give further

guidance.

Boiler

e.g sink waste - downstream

3. The discharge pipe should be run in a proprietary drain pipe

material e.g. PVC, PVC-U, ABS, PVC-C or PP.

Pipe must terminate

above water level but

below surrounding

surface

4. Metal pipework is NOT suitable for use in condensate

discharge systems.

Sink

5. The pipe should be a minimum of 21.5mm diameter and

must be supported using suitably spaced clips to prevent

sagging.

6. It is advisable to keep the condensate pipe internal.

Fig. 14

7. External runs greater than 3 metres or runs in cold areas

should use 32mm waste pipe.

8. If the boiler is fitted in an unheated location the entire

condensate discharge pipe should be treated as an external

run.

Termination to a drain or gully

Boiler

Pipe must terminate above

water level but below

surrounding surface

9. In all cases discharge pipe must be installed to aid disposal

of the condensate. To reduce the risk of condensate being

trapped, as few bends and fittings as possible should be used.

10. When discharging condensate into a soil stack or waste

pipe the effects of existing plumbing must be considered. If soil

pipes or waste pipes are subjected to internal pressure

fluctuations when WC's are flushed or sinks emptied then

back-pressure may force water out of the boiler trap and

cause appliance lockout.

Fig. 15

Termination to a purpose made soak-

away

Examples are shown of the following methods of termination:-

i) to an internal soil & vent pipe - Fig. 13

Boiler

ii) via an internal discharge branch (e.g. sink waste) - Fig. 14

iii) to a drain or gully - Fig. 15

500mm min

iv) to a purpose made soakaway - Fig. 16

Holes in the soak-away must

face away from the building

Fig. 16

Terminal Position with Minimum Distance (Fig. 18)

(mm)

7.0 Site Requirements

Directly below an opening, air brick, opening

windows, etc.

Above an opening, air brick, opening window etc.

Horizontally to an opening, air brick, opening window etc.

Below gutters, soil pipes or drain pipes.

Below eaves.

Below balconies or car port roof.

From a vertical drain pipe or soil pipe.

From an internal or external corner.

300

600

1200

600

7.8

Flue

NOTE: Due to the nature of the boiler a plume of water

vapour will be discharged from the flue. This should be

taken into account when siting the flue terminal.

Above ground, roof or balcony level.

1. The following guidelines indicate the general requirements

for siting balanced flue terminals. For GB recommendations are

given in BS 5440 Pt 1. For IE recommendations are given in the

current edition of I.S. 813 “Domestic Gas Installations”.

From a surface or boundary line facing a terminal.

From a terminal facing a terminal (Horizontal flue).

From a terminal facing a terminal (Vertical flue).

From an opening in carport (e.g. door, window)

into the dwelling.

Vertically from a terminal on the same wall.

Horizontally from a terminal on the same wall.

From adjacent wall to flue (vertical only).

From an adjacent opening window (vertical only).

Adjacent to windows or openings on pitched and flat roofs

Below windows or openings on pitched roofs

1200

1500

300

1000

600

2. If the terminal discharges onto a pathway or passageway,

check that combustion products will not cause a nuisance and

that the terminal will not obstruct the passageway.

3. If a terminal is less than 2 metres above a balcony, above

ground or above a flat roof to which people have access, then

a suitable terminal guard must be provided.

2000

In addition, the terminal should be no nearer than 150 mm to an opening in the

building fabric formed for the purpose of accommodating a built-in element such as

a window frame.

4. * Reduction to the boundary is possible down to 25mm but

the flue deflector kit (part no. 5111068) must be fitted.

Only ONE 25mm clearance is allowed per installation. If one of the dimensions

D, E, F, G or H is 25mm then the remainder MUST be as B.S.5440-1.

IMPORTANT:

NOTE: The distance from a fanned draught appliance terminal

installed parallel to a boundary may not be less than 300mm in

accordance with the diagram below

• Under car ports we recommend the use of the plume

displacement kit.

• The terminal position must ensure the safe and

nuisance - free dispersal of combustion products.

300 min

Terminal

Assembly

IMPORTANT: If fitting a Plume

Displacement Flue Kit, the air inlet

must be a minimum of 150mm from

any opening windows or doors (see

Section 9.0).

Plume

Displacement Kit

TopView Rear Flue

Fig. 17

Property Boundary Line

Air Inlet

J,K

Opening Window

or Door

150mm

MIN.

Fig. 18a

J,K

Likely flue positions requiring

a flue terminal guard

Fig. 18

8.0 Flue Options

8.1

Horizontal Flue Systems

1. The standard flue is suitable only for horizontal termination

applications.

2. All fittings should be fully engaged. The approximate

engagement is 40mm. Apply soap solution to the seal on

each fitting to aid assembly.

(ii)

(i)

3. Maximum permissible equivalent flue lengths are:-

(60/100)

(80/125)

Horizontal Concentric 10 metres

20 metres

4. Any additional “in line” bends in the flue system must be

taken into consideration.

Their equivalent lengths are:-

Concentric Pipes:

135° bend

93° bend

0.5 metres

1.0 metres

Horizontal

Flues

Twin Flue Pipe

135° bend

91.5° bend

0.25 metres

0.50 metres

4. The elbow connected to the boiler adaptor is not included

in any equivalent length calculations.

Plume Displacement Kit 60 /100 Ø

5. The illustrations opposite show examples of permissible

flue systems.

1M Extensions, 45° & 93° bends are

also available - see Section 9.0

NOTE: Flue length is measured from point (i) to (ii) as

shown.

IMPORTANT: All flue systems must be securely

supported at least once every metre. Suitable pipe

supports are available as accessories.

NOTE: Horizontal flue pipes should always be installed with a fall of at least 1.5°

from the terminal to allow condensate to run back to the boiler.

This bend is equivalent to

1 metre

(ii)

This bend is equivalent to

1 metre

(i)

Total equivalent length =

A+B+C+2x90°Bends

Vertical

Flues

8.0 Flue Options

8.2

Twin & Vertical Flue Systems

(ii)

1. Maximum permissible equivalent flue lengths are:-

(60/100)

(80/125)

Vertical Concentric

Vertical Twin Pipe

10 metres

15 metres

20 metres

(i)

2. Any additional “in line” bends in the flue system must be

taken into consideration.

Their equivalent lengths are:-

Concentric Pipes:

135° bend

93° bend

0.5 metres

1.0 metres

IMPORTANT: All flue systems must be securely

supported at least once every metre. Suitable pipe

supports are available as accessories.

Twin Flue Pipe

120mm Min

apart

135° bend

91.5° bend

0.25 metres

0.50 metres

The elbow supplied with the standard horizontal telescopic

flue kit is not included in any equivalent length calculations

NOTE: Flue length is measured from point (i) to (ii) as

1m Min to

15m Max

shown.

Mini Terminal

on Air Duct

(sited in loft)

600mm Min

apart

(ii)

(i)

Vertical

Flues

(Twin Pipe)

1m Min

15m Max

Total Equivalent Length =

A+B+C+1x90°Bend

Roof

Terminal

All vertical and angled runs must be included,

measured from the boiler adaptor (point X) to the

joint with the flue terminal (point Y). One 91.5°

bend or two 135° bends can be included without

reduction of the flue length.

The total equivalent length for this example is

= 6.5 metres.

If further elbows are required the flue length must

be reduced by the following amounts:-

(ii)

AIR DUCT

N of

fittings/pipes

1 metre for each 91.5° bend

0.5 metre for each 135° bend

Equivalent

Length Value

Sub total

1m extension

135°bend

5.0m

0.5m

1.0m

0.25m

0.5m

91.5°bend

Equivalent Length Air Duct = 6.5m

This bend is equivalent to

1 metre

FLUE DUCT

Equivalent

N of

Sub total

Length Value

fittings/pipes

1m extension

135°bend

5.0m

0.5m

1.0m

(i)

0.25m

91.5°bend

0.5m

Equivalent Length Flue Duct = 6.5m

8.0 Flue Options

8.3

Flue Accessories

Key Accessory

FLUE GROUP A

Concentric Flue System 100mm diameter

Size

Code No

5118489

Horizontal Flue Terminal (inc. elbow)

Telescopic Flue (inc. elbow) 315-500mm5118069

Telescopic Internal Flue Kit

Flue Extension

315-500mm5119654

1000mm 5111074

Flue Bend

Flue Bend (pair)

Pipe Support (painted)

Vertical Flue Adaptor

Wall Liner

93°

135°

5111075

5111085

100mm Ø 5111080

5111070

5111067

Flue Terminal Deflector

5111068

FLUE GROUP N

Twin Flue System 80mm diameter

Flue Extension (pair)

Flue Bend (pair)

1000mm 5111087

90°

135°

5111072

5111086

720089801

5111084

5111081

Flue Bend (2 pair)

Vertical Flue Boiler Adaptor Kit

Vertical Flue Adaptor

Pipe Support (pair)

Flue Termination Kit

(horizontal termination)

Single Terminal

K,K1

80mm

60/80

5120172

5121791

5121792

5106164

Adaptor

Pitched Roof Terminal

25°/45°

FLUE GROUP G

Concentric Flue System 80/125mm diameter

Horizontal Flue Kit

Straight Extension Kit

Bend Kit (pair)

Bend

5118580

1000mm 5118584

135°

91.5°

125mm

5118597

5118588

5118610

Pipe support

FLUE GROUP A, N, G

Vertical Flue Kits

Vertical Flue Terminal (use with 5111070)

Vertical Flue Terminal

Pitched Roof Flashing

Roof cover plate

Flat roof flashing

5111078

5118576

5122151

246143

25°/50°

246144

Y,Z

U,W

8.0 Flue Options

8.4

Twin Flue Duct Adaptor

1. The kit allows connection of a twin flue system to the

boiler adaptor.

Air Duct Connection

Flue Duct Connection

8.5

Twin Flue Connection

1. Engage the twin flue duct adaptor in the boiler adaptor,

making sure that it is pushed down as far as possible.

2. Ensure that the air & flue ducts are connected correctly

and that they are adequately supported (at least once every

metre using the available pipe supports).

Boiler Adaptor

3. Ensure that all joints and elbows are fully engaged and

cannot become disconnected during operation.

8.0 Flue Options

8.6

For Roof Terminals

1. In the case of a pitched roof 25 - 50 degrees, position the lead

tile to replace/flash over existing roof tiling. Make an aperture in

the roof suitable for the lower tube of the roof terminal and

ensure the integrity of the roof cover is maintained. The

Approx

1425mm

adjustable plastic collar can either be positioned on the lead tile

or the lower tube of the roof terminal prior to the final

positioning of the vertical flue through the tile. Check the collar is

correctly located to suit required roof pitch (either 25° to 38° or

37° to 50°). From inside the roof adjust the flue to a vertical

position and secure to the roof structure with the clamp supplied.

2. For flat roof installations the aluminium flashing must be

incorporated into the roof covering and the appropriate aperture

made in the roof decking. The vertical flue is lowered onto the

flashing making sure the collar of the flue locates securely with

the flashing. (A mastic seal may be necessary). From inside the

roof, adjust the flue to a vertical position and secure to the roof

structure with the clamp supplied.

Cut the same

amount off the

Air Duct &

Air Duct

Flue Duct

Push Fit Adaptor

8.7

Flue Dimensions

The standard horizontal flue kit allows for flue lengths between

100mm and 685mm from elbow to terminal (Fig. 19).

The maximum permissible equivalent flue length is:

10 metres (60/100 system)

20 metres (80/125 system)

8.8

Flue Trim

Flue Deflector

1. The rubber flue trim supplied may be fitted to either the

outside wall or on the inner wall of installation.

8.9

Terminal Guard (Fig. 21)

Fig. 19

1. When codes of practice dictate the use of terminal guards,

they can be obtained from most Plumbers’ and Builders’

Merchants.

Fig. 20

2. There must be a clearance of at least 50mm between any part

of the terminal and the guard.

3. When ordering a terminal guard, quote the appliance name

and model number.

4. The flue terminal guard should be positioned centrally over the

terminal and fixed as illustrated.

8.10

Flue Deflector (Fig. 20)

1. If required a flue deflector is available from your Potterton

stockist.

2. Push the flue deflector over the terminal end and rotate to the

optimum angle for deflecting plume. Secure the deflector to the

terminal with screws provided.

Fig. 21

93° Elbow/Plume

Outlet Assembly

9.0 Plume Displacement

60Ø Support

Bracket

9.1

Plume Displacement Kit (Fig. 23)

O Ring

Kit No 5118638

Content of kit

0.9 metres

0.9m 60/100 Concentric Flue

1m 60 Dia Exhaust Flue Pipe

Adaptor

60Ø Exhaust

Flue Pipe

60 Dia Support Brackets

93° Elbow/Plume Outlet Assembly

Flexible Flue Trim

60Ø Support

Bracket

“O” Rings

‘Jubilee Clip

O Ring

Adaptor

O Ring

Fig. 22

Boiler Elbow

Flexible Flue

Trim

1. This kit is recommended for installations where the

condensate plume emitted from the flue may cause a nuisance

or affect the surroundings.

‘Jubilee’ Clip

2. The terminal must be positioned outside the building with

the air inlet facing downward and outlet connection upwards.

Elbow

3. The plume outlet must always be at least 45° to the wall,

with the ‘peak’ uppermost to prevent rain entry (Figs. 24 &

25), and be at least 2 metres above ground level. It must be

secured as shown in Fig. 19. The plume outlet must also be at

least 500mm from the air inlet in any direction (Fig. 25).

60/100Ø

Concentric Flue

Fig. 23

Outlet must be at

least 45° from

wall face

NOTE: The outlet must be positioned so that any

condensate plume is directed away from adjacent surfaces.

There must be a constant fall along the entire length of the

flue system from the outlet back to the boiler.

45°

‘Peak’ Uppermost

45°

4. It is possible to reduce or increase (with the addition of

extensions) the length of either or both the 60/100 concentric

and 60Ø exhaust.

5. Standard concentric flue extension kits may be added

between the boiler elbow and the terminal assembly.

6. The minimum length of the concentric flue is 100mm when

measured from the edge of the flue elbow.

500mm Min.

IMPORTANT: The maximum equivalent length of

concentric flue is:- 8 metres

Additional bends may be fitted in the concentric flue, but

the equivalent length must be reduced by 1 metre (93°

bend) or 0.5 metres (45° bend).

Fig. 24

Air Inlet at Bottom

7. 60Ø 1 metre extensions (including support bracket), and

additional 93° & 45° elbows are available. Any additional 93°

& 45° elbows must be accounted for when calculating flue

lengths.

Fig. 25

NOTE: Permitted positions of the plume outlet relative to

doors, windows etc. are the same as for conventional

concentric flues as detailed in the main Installation &

Servicing Instructions and BS5440 Pt. 1. It is NOT

necessary to fit a terminal guard over the air inlet or the

plume outlet.

9.0 Plume Displacement

9.2

Determining Permissible Lengths

In the graph the solid line diagonal represents the

relationship between the concentric flue assembly (and any

extensions) and the 60Ø exhaust (and any extensions or

additional bends).

Example 1 - Not Permissible

If, for instance, a concentric length of 5 metres was required

and the 60Ø exhaust needed to be 6 metres the graph

shows that this combination would NOT be permissible as

the intersection point would be above the solid diagonal line.

Concentric 60/100 Flue (metres)Y

Example 1

Example 2

Flue Lengths - Not Permissible

Flue Lengths - OK

Example 2 - Flue Lengths OK

Where both lengths have been determined they can be

applied to the graph to check that the installation is

permissible. For example, if it was known that 2 metres of

concentric flue and 4 metres of 60Ø exhaust were required,

the values could be applied to the graph as shown in

Example 2.. As the point of intersection of the dotted lines is

below the solid diagonal line, the combination of lengths is

shown to be acceptable.

Example 3 - Flue Lengths OK

In the example shown in Fig. 4 assume that the concentric

part of the flue needs to be 2.3 metres long. Find the

position of ‘2.3’ on the horizontal axis of the graph and then

project upwards to the solid diagonal line. This is represented

by the vertical thick dotted line. Where this dotted line

intersects with the solid diagonal line on the graph, project

across to the vertical axis. As can be seen this corresponds

with 6 metres. Therefore, the total equivalent length of the

60Ø exhaust can be up to 6 metres. Any bend equivalences

must be accounted for i.e. 93° bends are equal to 1 metre,

each 45° bend to 0.5 metres.

Concentric 60/100 Flue (metres)Y

Example 3

Flue Lengths - OK

Support

Bracket

60Ø Exhaust

45° Elbow

Flue Length - Worked Example

Potterton Promax Combi 33HE

93° Elbow

In Fig. 27 opposite an additional 93° bend and pair of 45°

elbows have been included in the 60Ø exhaust.

Also 3 straight extension pieces have been used.

1 metre Extension

Concentric 60/100 Flue

To calculate total length:-

1 metre supplied in kit

Length of 60Ø supplied in kit =

3 x 1 metre Extensions =

1 x 93° Elbow =

1 metre

Fig. 26

3 metres

1 metre

2 x 45° Elbow =

1 metre (0.5 metres each)

Concentric Flue

Total 60Ø =

6 metres

After consulting the table in Example 3 it can be determined

that the concentric flue could be up to approximately 2.3

metres long.

Additional Accessories

A - 93° Elbow

B - 45° Elbow (Pair)

5121369

5121370

Fig. 27

C - 1 metre 60Ø Extension 5121368

9.0 Plume Displacement

9.3

General Fitting Notes

1. Cut a hole in the external wall which the concentric flue

assembly will pass through. The hole should allow the flue

to fall back to the boiler at an angle of at least 1.5°.

2. When completed the terminal must be at least 2 metres

above ground level (Fig. 28).

Min. 2 metres

3. Measure and cut to size the concentric assembly and any

extensions that are being used.

4. Insert the concentric assembly through the hole from

outside the building.

5. If required, the flexible flue trim should be fitted prior to

this as it cannot be fitted after. Use the large ‘Jubilee’ clip to

secure the trim to the flue (See Fig. 29, trim shown

dotted), with the screw part of the clip at the bottom.

Fig. 28

6. Connect any extensions or elbows that are being used

to the concentric assembly. Engage the extension, elbow

or concentric assembly in the boiler flue elbow. Fit the

boiler flue elbow to the boiler adaptor.

Flue Trim

7. Ensure that the concentric assembly and any extensions

fall back to the boiler at an angle of at least 1.5° and that

the external air inlet is to the bottom.

8. Use suitable brackets to support the concentric

assembly and any extensions, and make good inside and

outside.

Spigot

9. The 60Ø exhaust can now be fitted. Slide the adaptor

over the plain end of the 60Ø exhaust (Fig. 31) and engage

the exhaust in the terminal. Slide the adaptor down over

the spigot. Mark and drill the adaptor, using a 2mm bit, as

shown in Fig. 30. Secure the adaptor to the spigot using

one of the screws supplied.

Position of ‘Jubilee’ Clip

screw

Fig. 29

Fig. 31

Fig. 32

50mm

Adaptor

10. If it is necessary to shorten the 60Ø exhaust or any of

the extensions, the excess material must be cut from the

plain end of the pipe.

11. Determine the position of the 60Ø exhaust and mark

on the wall a suitable position for the support bracket. If

extensions are being used, a support bracket is supplied in

each kit.

30mm

Fig. 30

12. Drill the wall, and fit the bracket(s) using the plug and

screw provided.

13. Mark and drill the 60Ø exhaust, using a 2mm bit, as

shown in Fig. 32. Complete the installation of the 60Ø

exhaust, securing in the brackets.

30mm

14. Fit the 93° elbow/plume outlet and secure with the

two remaining screws supplied. Ensure the plume outlet is

at least 45° to the wall and that the ‘peak’ is uppermost

(Fig. 33).

Fig. 33

9.0 Plume Displacement

Plume Outlet

Elbow

9.3

General Fitting Notes (cont.)

15. For aesthetic purposes it is permissible to route the

60Ø exhaust in an enclosed box, but the air inlet and

plume outlet MUST remain in free air.

16. It is also possible to separate the plume outlet from the

93° elbow to allow the flue to be installed as shown in

Fig. 34.

17. To do this, first slacken the two screws retaining the

plume outlet to the elbow, and remove the outlet (Fig. 35).

The elbow can now be used to connect the vertical to

horizontal 60Ø exhaust (Fig. 34). Retighten the screws in

the elbow.

Fig. 34

18. The outlet can now be fitted into the female end of an

60Ø extension piece. It must be secured using two of the

screws supplied in the bag with the ‘Jubilee’ clip.

19. Mark the female end of the extension at 30mm as

shown in two positions, directly opposite each other

(Fig. 36).

Fig. 35

30mm

20. Using a suitable bit (e.g. 2mm), drill through the

extension and outlet. Secure using two of the screws

supplied.

21. The remaining screw must be used to secure the

adaptor to the concentric terminal.

Fig. 36

22. When the plume outlet is positioned under a balcony

or other projection (Fig. 37) it must protrude at least

200mm (it is not necessary to extend it further than this).

200mm Min.

23. When under balconies or projections it is permissible to

rotate the concentric flue length up to 70°, clockwise or

anti-clockwise (Fig. 38), if there is insufficient space to

connect vertically.

24.This will allow the connection of the exhaust to the

outlet spigot.

25. All other minimum & maximum dimensions must be

adhered to, and the air inlet positioned such that it will not

be subject to rain entry.

Fig. 37

70°

Concentric Flue Length

(shown end-on)

Outlet Spigot

Fig. 38

10.0 Installation

10.1

Unpacking & Initial Preparation

The gas supply, gas type and pressure must be checked for

suitability before connection (see Section 7.4).

NOTE: a small amount of water may drain from the

boiler in the upright position.

Fig. 39

1. Remove staples, open flaps and remove the cardboard

sheet. Remove the polystyrene side pieces and literature.

Two people can then lift out the boiler (Figs. 39 & 40)

2. After considering the site requirements

(see Section 7.0) position the fixing template on the wall

ensuring it is level both horizontally and vertically.

Fig. 40

3. Mark the position of the two most suitable fixing slots for

the wall plate and boiler lower fixing holes. It is preferable to

use the vertical fixing slots.

4. Mark the position of the centre of the flue hole (rear

exit). For side flue exit, mark as shown (Fig. 41).

5. If required, mark the position of the gas and water pipes.

Remove the template.

145mm

6. Cut the hole for the flue (minimum diameter 116mm).

7. Drill the wall as previously marked to accept the wall

plugs supplied. Secure the wall plate using the fixing screws.

8. Using a spirit level ensure that the plate is level before

finally tightening the screws.

For Side Flue Exit

Fig. 41

Flushing Tube

9. Connect the gas and water pipes to the valves on the

wall plate using the copper tails supplied. Ensure that the

sealing washers are fitted between the connections.

Wall Plate

10.2

Flushing

1. Connect a tube to the central heating flow or return pipe

(Fig. 42).

2. Flush thoroughly (see System Details, Section 6.1).

Fig. 42

Central Heating Return

10.0 Installation

10.3

Fitting The Boiler

Wall Plate

1. Lift the boiler using the Lifting Points as shown by the

shaded areas (Fig. 43). The boiler should be lifted by TWO

PEOPLE. Engage the slots at the top rear of the boiler on the

wall plate(see Safe Manual Handling page 5).

2. Pull the lower polystyrene cap off the boiler (where used).

Ease the boiler forwards and remove the sealing caps from the

boiler connections.

Sealing

Washers

NOTE: A small amount of water may drain from the boiler

once the caps are removed.

3. Insert the sealing washers between the valves and pipes on

the wall plate and the boiler connections. THE RUBBER

WASHERS MUST BE USED ON THE GAS CONNECTION.

4. Tighten all the connections.

Fig. 43

Remove Sealing Caps from

under the Boiler after lifting

into position

Suggested Lifting Points

shown as shaded area

10.4

Fitting the Pressure Relief Discharge Pipe

(Fig. 44)

1. Remove the discharge pipe from the kit.

2. Determine the routing of the discharge pipe in the vicinity of

the boiler. Make up as much of the pipework as is practical,

including the discharge pipe supplied.

3. The pipework must be at least 15mm diameter and run

continuously downwards to a discharge point outside the

building. See section 6.7 for further details.

Pressure Relief Valve

4. Utilising one of the sealing washers, connect the discharge

pipe to the adaptor and tighten the nut.

5. Complete the discharge pipework and route it to the

outside discharge point.

Fig. 44

IMPORTANT: Make all soldered joints before connecting

to the pressure relief valve.

Discharge Pipe

10.5

Condensate Drain (see section 7.7)

1. Connect the condensate drain to the trap outlet pipe.

Ensure the discharge of condensate complies with any

national or local regulations in force (see British Gas

“Guidance Notes for the Installation of Domestic Gas

Condensing Boilers”.

2. The connection will accept 21.5mm (³/⁴in) plastic overflow

pipe which should generally discharge internally into the

household drainage system. If this is not possible, discharge into

an outside drain is acceptable.

10.0 Installation

10.6

Fitting The Flue

HORIZONTAL FLUE

1. The standard flue is suitable for lengths between 100mm

minimum and 685mm maximum, as measured from the

edge of the flue elbow outlet to the joint between the

terminal and air duct (Fig. 45).

Fig. 45

2. Locate the flue elbow on the adaptor at the top of the

boiler. Set the elbow to the required orientation (Fig. 47).

The elbow is fully engaged when there is a distance of

20mm from the adaptor to the indicator line (Fig. 46).

20mm

NOTE: The flue elbow is angled at 93 degrees to

ensure a fall back to the boiler.

Wall Thickness

Indicator line

3. Measure the distance from the outside wall face to the

elbow. This dimension will be known as ‘X’ (Fig. 48).

Fig. 46

Flue Elbow

4. To dimension ‘X’ add 50mm. This dimension to be

known as ‘Y’.

(X)

Apply Lubricant for

ease of assembly.

IMPORTANT: Check all dimensions before cutting.

Ensure Elbow is fully

engaged into Boiler

Adaptor

5. Mark dimension ‘Y’ on the flue as shown (Fig. 49).

Carefully cut the waste material from the flue, ensuring that

the ducts are square and free from burrs.

Fig. 47

Wall Thickness

(X)

Fig. 48

Waste

Flue

Fig. 49

10.0 Installation

Inner Flue Support Bracket

10.6

Fitting the Flue (Cont)

6. The inner flue duct support bracket may be in the waste

portion of the flue. In this case retrieve the bracket before

discarding the waste.

7. Take the inner flue support bracket (if not already fitted)

and engage it over the flue duct. This will centralise the flue

and air ducts, and ease assembly (Fig. 50).

Fig. 50

8. Insert the flue through the hole in the wall. Fit the elbow

to the boiler adaptor, ensuring that it is pushed fully in.

Apply Lubricant for

ease of assembly.

Ensure Flue is fully

engaged into Flue

Elbow

9. Draw the flue back through the wall and engage it in the

elbow. It may be necessary to use soap solution or similar

to ease assembly of the elbow adaptor and flue (Fig. 51).

10. Ensure that the terminal is positioned with the slots to

the bottom (Fig. 52).

IMPORTANT: It is essential that the flue terminal is fitted

as shown to ensure correct boiler operation and prevent

water entering the flue.

11. Make good between the wall and air duct outside the

building.

12. Fit the flue trim if required, and if necessary fit a terminal

guard (see Section 8.8 & 8.9).

Slots at bottom

Fig. 52

CONCENTRIC VERTICAL FLUE

13. Once the length of the vertical concentric extension has

been determined mark and carefully cut off the excess

material. The cut end MUST be square and free of burrs to

ensure correct insertion into the boiler adaptor.

Fig. 51

25mm

14. Measure 25mm from the end of the flue extension and

apply a length of tape around the outer duct (Fig. 53).

15. Engage the extension into the adaptor up to this

position (Fig. 54). Once the installation of the flue is

complete and all support brackets are securely in place

remove the tape.

Extension

Fig. 53

Tape

Cut End

Adaptor

Apply Lubricant for

ease of assembly.

Ensure Extension is

fully engaged into

Boiler Adaptor

Fig. 54

10.0 Installation

10.7

Making The Electrical Connections

The boiler is fitted with a 1.3m length of 3 core cable. This

can be connected to the fused 3A 230V 50H^Zsupply.

NOTE: Both the Live and Neutral connections are fused.

To connect an external control proceed as follows:-

Terminal Block Cover

1. Slacken the facia panel securing screws and lift the

outercase panel so that its securing tabs are clear of the

facia. Remove the panel.

2. Completely undo the screws securing the facia panel and

hinge it down (Fig. 55).

3. Undo the terminal block cover securing screw and

remove the cover (Fig. 55).

Fig. 55

4. Slacken the unused cable clamp on the LH side of the

boiler chassis (Fig. 56). Insert the external control wiring

through the clamp and route it to the terminal block.

Fig. 56

Facia Panel

Cable Clamp

5. Refer to the instructions supplied with the control.

IMPORTANT: The room thermostat MUST be suitable

Fused Spur

for 230V switching.

Room ‘Stat

NOTE: An external frost thermostat cannot be used

with the optional integral timer.

6. Remove the link between terminals 1 & 2. The 230V

supply at terminal 2 must be connected to the thermostat.

The switched output from the thermostat must be

connected to terminal 1 (Fig. 57). If the room thermostat

being used incorporates an anticipator it MUST be wired as

shown in Fig. 57.

230V

g/y

7. Ensure that the external control input cable(s) have

sufficient slack to allow the control box to drop down.

Tighten the cable clamp on the boiler chassis.

Fig. 57

8. Replace the terminal block cover, routing the external

control input cable(s) through the second cut-out.

Frost Thermostat

Fused Spur

Room ‘Stat

10.8

Preliminary Electrical Checks

230V

1. Prior to commissioning the boiler preliminary electrical

system checks should be carried out.

230V

2. These should be performed using a suitable meter, and

include checks for Earth Continuity,

External Clock

g/y

Resistance to Earth, Short Circuit and Polarity.

NOTE: The 230V switched signal for external controls

(Frost Stat - Room Stat - Timer) must always be taken

from terminal 2 at the boiler. Live, Neutral and Earth to

power these controls must be taken from the Fused Spur.

11.0 Commissioning

11.1

Commissioning the Boiler

1. Reference should be made to BS:EN 12828 & 14336 when

commissioning the boiler.

2. At the time of commissioning, complete all relevant

sections of the Benchmark Checklist at the rear of this

publications.

Screw

3. Open the mains water supply to the boiler.

4. Open all hot water taps to purge the DHW system.

Pump

Automatic Air

Vent

5. Ensure that the filling loop is connected and open, then

open the heating flow and return valves on the boiler.

6. Open the screw on the automatic air vent on the pump

body (Fig. 59).

7. The system must be flushed in accordance with BS 7593

(see Section 6.2) and the flushing agent manufacturers

instructions.

8. Pressurise the system to 1.5 bar (Fig. 60) then close and

disconnect the filling loop.

Pump

Fig. 59

9. Turn the gas supply on and purge according to in GB BS

6891 and in IE I.S. 813 “Domestic Gas Installations”.

bar

Selector Switch

Display

Pressure Gauge

Fig. 60

10. Test for gas tightness.

11. Hinge the facia panel upwards and refit the case front

panel. Tighten the securing screws.

Reset

IMPORTANT: The combustion for this appliance has

been checked, adjusted and preset at the factory for

operation on the gas type specified on the appliance data

plate. No measurement of the combustion is necessary.

Do not adjust the air/gas ratio valve.

bar

Central Heating

Temperature Control

Domestic Hot Water

Temperature Control

12. Having checked:

Fig. 61

• That the boiler has been installed in accordance with

these instructions.

• The integrity of the flue system and the flue seals.

• The integrity of the boiler combustion circuit and the

relevant seals.

Proceed to put the boiler into operation as follows:

x 2

11.0 Commissioning

11.2

Check the Operational (Working) Gas Inlet

Pressure

1. Ensure that all controls are calling for heat, and the selector

switch is in the central heating and hot water position (

The current boiler temperature is shown on the display.

Central Heating

Temperature Control

Domestic Hot Water

Temperature Control

2. It is necessary to set the boiler to ‘Calibration Mode’.

Fig. 62

3. Turn both temperature control knobs fully anticlockwise,

then quickly turn the DHW temperature knob ¹/⁴clockwise

twice and back fully anticlockwise (Fig. 62).

Selector Switch

Display

Reset

4. The display will now alternate between ‘SF’ and the current

boiler temperature and both green LEDs will flash (Figs. 63 &

64).

bar

Central Heating

Temperature Control

Domestic Hot Water

Temperature Control

5. Turn CH temperature control knob fully clockwise. As the

knob is turned the display will change from ‘0’ to ‘00’ (Fig. 65)

indicating maximum rate, then revert to ‘P’ alternating with the

current boiler temperature (Figs 66 & 67).

6. With the boiler operating in the maximum rate condition

check that the operational (working) gas pressure at the inlet

gas pressure test point (Fig. 62a) is in accordance with B.S.

6798 & B.S. 6891.

7. Ensure that this inlet pressure can be obtained with all other

gas appliances in the property working.

Gas Pressure

Test Point

Measure the Gas Rate

Fig. 62a

8. With any other appliances & pilot lights turned OFF the gas

rate can be measured. It should be between:-

Gas Valve

24 model

28 model

33 model

2.6m³/h

3.1m³/h

3.6 m³/h

9. The ‘Calibration Function’ is active for 20 minutes unless the

maximum CH temperature is exceeded.

10. The function can be disabled at any time by turning the

DHW temperature knob.

Fig. 63

Fig. 64

11. Carefully read and complete all sections of the Benchmark

Commissioning Checklist at the rear of this publication that are

relevant to the boiler and installation. These details will be

required in the event of any warranty work. The publication

must be handed to the user for safe keeping and each

subsequent regular service visit recorded.

Fig. 65

12. For IE, it is necessary to complete a “Declaration of

Conformity” to indicate compliance with I.S. 813. An example

of this is given in I.S. 813 “Domestic Gas Installations”. This is

in addition to the Benchmark Commissioning Checklist.

Fig. 67

Fig. 66

12.0 Completion

12.1

Completion

Case Front Panel

1. Instruct the user in the operation of the boiler and

system explaining the operational sequence.

2. Set the central heating and hot water temperature

control knobs to the requirements of the user.

3. Carefully read and complete all sections of the

Benchmark Commissioning Checklist at the rear of this

publication that are relevant to the appliance and

installation. These details will be required in the event of

any warranty work. The publication must be handed to the

user for safe keeping and each subsequent regular service

visit recorded.

4. For IE, it is necessary to complete a “Declaration of

Conformity” to indicate compliance with I.S. 813. An

example of this is given in I.S. 813 “Domestic Gas

Installations”. This is in addition to the Benchmark

Commissioning Checklist.

5. Hand over the Users Operating, Installation and

Servicing Instructions giving advice on the necessity of

regular servicing.

Facia Panel

Fig. 68

13.0 Servicing

13 .1 Annual Servicing

1. For reasons of safety and economy, it is recommended that

the boiler is serviced annually. Servicing must be performed by

a competent person in accordance with B.S. 7967-4.

Case Front Panel

2. After servicing, complete the relevant Service Interval Record

section of the Benchmark Commissioning Checklist at the rear

of this publication.

IMPORTANT: During routine servicing, and after any

maintenance or change of part of the combustion circuit, the

following must be checked:-

• The integrity of the complete flue system and the flue seals.

• The integrity of the boiler combustion circuit and relevant

seals as described in Section 13.2.

• The operational gas inlet pressure as described in Section

11.2.1 to 11.2.7 and the gas rate as described in 11.2.8.

• The combustion performance as described in ‘Check the

Combustion Performance’ (13.1.4 to 13.1.6 below).

3. Competence to carry out Checking Combustion

Performance

B.S. 6798 ‘Specification for Installation & Maintenance of Gas

Fired Boilers not exceeding 70kW’ advises that:-

Fig. 69

Facia Panel Securing

Screws

• The person carrying out a combustion measurement should

have been assessed as competent in the use of a flue gas

analyser and the interpretation of the results.

• The flue gas analyser used should be one meeting the

requirements of BS7927 or BS-EN50379-3 and be calibrated

in accordance with the analyser manufacturers’ requirements.

• Competence can be demonstrated by satisfactory

completion of the CPA1 ACS assessment, which covers the

use of electronic portable combustion gas analysers in

accordance with BS 7967, Parts 1 to 4.

Check the Combustion Performance (CO/CO²ratio)

4. Set the boiler to operate at maximum rate as described in

Section 15.1.1 to 15.1.6.

5. Remove the plug from the flue sampling point, insert the

analyser probe and obtain the CO/CO²ratio. This must be

less than 0.004.

6. If the combustion reading (CO/CO²ratio) is greater than

this, and the integrity of the complete flue system and

combustion circuit seals has been verified, and the inlet gas

pressure and gas rate are satisfactory either:

• Perform the ‘Annual Servicing - Inspection’ (Section 13.2) &

re-check

• Adjust the gas valve (Section 15.0) & re-check

• Replace the gas valve (Section 14.24) & re-check

13.2

Annual Servicing - Inspection

Inner Door

Panel

Fig. 70

1. Ensure that the boiler is cool.

2. Ensure that both the gas and electrical supplies to the

boiler are isolated.

3. Slacken the screws securing the facia panel. Lift the outercase

panel so that its securing tabs are clear of the facia. Remove the

panel, allowing the facia to hinge down (Fig. 69).

4. Remove the screws securing the inner door panel. Lift the

panel slightly to disengage it from the studs on top of the case

(Fig. 70).

Sump

5. Unscrew the sump from the bottom of the condensate trap

assembly (Fig. 71) and remove any deposits from the sump and

trap. Clean as necessary and replace the sump.

Fig. 71

13.0 Servicing

Burner

13.2

Annual Servicing - Inspection (Cont)

Viewing Window

6. Undo the nut on the gas inlet pipe to the venturi (Fig. 73)

and pull the sensing pipe off the fan.

7. Disconnect the electrode leads, noting their position, and

the fan electrical plugs.

Sensing

Spark Ignition

Electrode

8. Undo the four nuts retaining the combustion box cover

to the heat exchanger.

9. Carefully draw the fan, collector and cover assembly

forward, being careful to retain the injector in the venturi

(Figs. 72 & 73).

Electrode Position

10. Clean any debris from the heat exchanger and check

that the gaps between the tubes are clear.

Fan, Collector and Cover

Assembly

11. Inspect the burner, electrodes and insulation, cleaning or

replacing if necessary. Clean any dirt or dust from the air

box.

12. Reassemble in reverse order.

NOTE: The sensing pipe must be reconnected to the

fan, not the venturi.

Electrode

Leads

DHW Filter (Fig. 75)

13. If the flow of domestic hot water is diminished, it may

be necessary to clean the filter.

Fig. 72

14. Initially check the cold water inlet tap filter.

Venturi

15. Turn the tap off and draw off from a hot tap. Undo the

blanking cap and remove the threaded bush (Fig. 74).

16. Extract the filter and rinse thoroughly in clean water.

Reassemble and check the flow. If required clean the

restricter filter as described below.

Injector

Fig. 74

Threaded

Bush

17. Pull off the Hall Effect sensor. Undo the restricter from

the inlet/return manifold (Fig. 75).

18. Rinse the filter thoroughly in clean water and reassemble

in reverse order.

Gas Inlet Pipe

Fig. 73

19. Turn the selector switch fully anticlockwise against the

spring pressure to the reset position and hold for 5 seconds

to reset the boiler.

Hall Effect

Sensor

Blanking

Cap

Cold Water

Inlet Tap

20. Complete the relevant Service Interval Record section of

the Benchmark Commissioning Checklist at the rear of this

publication and then hand it back to the user.

Restricter

Filter

Hydraulic Inlet

Assembly

Fig. 75

14.0 Changing Components

IMPORTANT: When changing components ensure that

both the gas and electrical supplies to the boiler are

isolated before any work is started. When the

component has been changed turn the selector switch

fully anticlockwise against the spring pressure to the

reset position and hold for 5 seconds to reset the boiler

before recommissioning.

Bracket

Igniter

Igniter Feed

Plug

See Section 13.1 “Annual Servicing” for removal of case

panel, door etc.

Electrode

Leads

14.1

Igniter (Fig. 76)

1. Disconnect the igniter feed plug and the electrode leads,

noting their positions.

Fig. 76

2. Undo the screw securing the bracket to the boiler.

3. Remove the igniter and transfer the bracket to the new

component.

4. Reassemble in reverse order.

14.2

Spark and Sensing Electrodes (Fig. 77)

1. Disconnect the electrode leads, noting their positions.

2. Remove the retaining screws securing each of the

electrodes to the combustion box cover and remove the

electrodes.

3. Check the condition of the sealing gasket and replace if

necessary. Reassemble in reverse order.

Spark

Electrode

Leads

Sensing

Electrode

Fig. 77

14.0 Changing Components

14.3

Fan (Fig. 79)

1. Undo the nut on the gas inlet pipe to the venturi (Fig. 79)

and pull the sensing pipe off the fan.

2. Disconnect the electrode leads, noting their position and

disconnect the fan electrical plugs.

3. Undo the screws securing the collector to the cover (33

models) or extension piece (24 & 28 models).

4. Remove the collector and fan assembly, being careful to

retain the injector in the venturi.

5. Undo the screws securing the fan to the venturi and fit the

new fan, replacing the seal if necessary.

6. Examine the burner gasket and replace if necessary.

Venturi

7. Reassemble in reverse order, ensuring that the injector is

in place and the sensing pipe is connected to the fan.

Injector

14.4

Venturi (Fig. 78)

Cover

1. Remove the collector and fan assembly as described in

section 14.3.

2. Extract the injector from the venturi.

Gas Inlet Pipe

Fig. 79

3. Undo the screws securing the fan to the venturi and the

venturi to the collector.

Burner

Gasket

Important: When fitting the new venturi, ensure the arrows

on it’s base point into the collector (Fig. 84).

4. Examine the seals and burner gasket, replace if necessary.

Gas Inlet

5. Reassemble in reverse order, ensuring that the injector is

in place.

Fan

14.5

Injector (Fig. 78)

Venturi

Injector

1. Remove the collector and fan assembly as described in

section 14.3.

Collector

Fig. 78

2. Extract and replace the injector and reassemble in reverse

order.

Fig. 80

When fitting the venturi

ensure that the arrow is

pointing forward

14.0 Changing Components

Cover

14.6

Burner (Fig. 81)

Burner

1. Undo the screws securing the collector to the cover and

venturi (On 28 models there is an extension piece fitted to

the cover, remove this also.

Gasket

Extension Piece

(On 28 models only)

2. Withdraw the burner from the cover and replace with

the new one.

3. Examine the gasket, replacing if necessary.

4. Reassemble in reverse order.

Venturi

14.7

Insulation (Fig. 82)

1. Remove the electrode leads, noting their positions. Also

remove the electrodes as described in section 14.2.

Collector

Fig. 81

2. Undo the screws securing the collector to the venturi and

the nuts holding the cover to the heat exchanger. Draw the

collector and cover assembly away.

3. Remove the cover insulation piece.

4. Fit the new insulation carefully over the burner and align

it with the slots for the electrodes.

5. If the rear insulation requires replacement remove it and

all debris from the heat exchanger. Also it may be necessary

to separately remove the spring clip from the pin in the

centre of the heat exchanger and the ‘L’ shaped clips

embedded in the insulation.

6. DO NOT remove the shrink-wrapped coating from the

replacement rear insulation. Keep the insulation vertical and

press firmly into position.

Heat

Exchanger

7. Examine the cover seal and replace if necessary.

Rear

Insulation

Spark

Electrode

Venturi

Cover

Insulation

Seal

Fig. 82

Collector

Electrode

Leads

Sensing

Electrode

14.0 Changing Components

Electrical

Plug

14.8

Flue/Heat Exchanger Thermostat Sensor

(Fig. 83)

Flue/Heat Exchanger

Thermostat Sensor

1. Ease the retaining tab on the sensor away and disconnect

the electrical plug.

2. Turn the sensor 90^°anticlockwise to remove - it is a

bayonet connection.

3. Reassemble in reverse order.

Fig. 83

14.9

Water Pressure Sensor (Fig. 85)

1. Drain the primary circuit.

2. Disconnect the two wires from the sensor.

3. Undo the nut on the flow pipe securing and sealing the

sensor.

4. Remove the sensor, examine the sealing washer, replacing if

necessary.

5. Reassemble in reverse order. The component is not

polarised - either wire will fit each terminal.

14.10 Central Heating Temperature Sensor (NTC)

(Fig. 84)

Flow Pipe

Central Heating

Temperature Sensor

1. Ease the retaining tab on the sensor away and disconnect

the electrical plug.

2. Unscrew the sensor from it’s pocket and reassemble in

reverse order. The plug will only fit one way.

14.11 Safety Thermostat (Fig. 85)

1. Pull the plug off the thermostat.

Safety Thermostat

2. Remove the screws securing the thermostat to the

mounting plate on the flow pipe.

3. Reassemble in reverse order, ensuring that the plug is

pushed fully on.

Fig. 84

14.12 DHW Temperature Sensor (NTC) (Fig. 85)

1. Turn off the mains cold water supply tap and draw off the

residual domestic hot water.

Pressure Sensor

Plate Heat

Exchanger

2. Ease the retaining tab on the sensor away and disconnect

the electrical plug.

3. Unscrew the sensor from the plate heat exchanger

manifold. Examine the sealing washer,replacing if necessary.

4. Reassemble in reverse order. The plug will only fit one way.

Fig. 85

DHW Temperature

Sensor

14.0 Changing Components

14.14 Pump - Head Only (Fig. 87)

1. Drain the boiler primary circuit and remove the socket

head screws securing the pump head to the body and draw

the head away.

Pump Wiring

Cover

Pump Body

2. Undo the screw on the pump wiring cover and remove

the cover. Using a suitable flat bladed screw driver press the

cable securing levers downwards to release each wire after

noting their position.

3. A standard replacement Grundfos 15-60 head can now

be fitted. Connect the pump wiring to the new head. The

pump speed must be set to 3 (Fig. 88).

Socket Headed

Screw

4. Reassemble in reverse order.

Pump Head

14.15 Pump - Complete (Fig. 88)

Fig. 87

1. Drain the boiler primary circuit.

2. Undo the two screws securing the body to the pipe and

manifold and draw the pump forwards.

3. Undo the screw on the pump wiring cover and remove

the cover. Using a suitable flat bladed screw driver press the

cable securing levers downwards to release each wire after

noting their position.

Pump Setting

Fig. 88

Automatic Air

Vent

4. Unscrew the automatic air vent from the pump body.

Pump Wiring

Cover

5. Connect the wiring to the new pump. Examine the ‘O’

ring seals on the return pipe and manifold, replacing if

necessary.

6. Fit the air vent to the pump body and reassemble in

reverse order.

14.16 Automatic Air Vent (Fig. 89)

1. Drain the boiler primary circuit and unscrew the

automatic air vent from the pump body.

Fig. 89

2. Examine the ‘O’ ring seal, replacing if necessary, and fit it

to the new automatic air vent.

3. Reassemble in reverse order.

14.0 Changing Components

14.17 Pressure Gauge (Figs. 90 & 91)

Gauge Retaining

Bracket

1. Drain the boiler primary circuit and undo the nut on the

pressure gauge capillary.

2. Undo the screws securing the gauge retaining bracket.

3. Remove the bracket and gauge assembly. Depress the

barbs on the side of the gauge and remove the retaining

bracket.

Pressure Gauge

Fig. 90

4. Examine the sealing washer, replace if necessary.

5. Reassemble in reverse order.

14.18 Hall Effect Sensor (Fig. 92)

1. Ease the sensor upwards off the hydraulic inlet manifold

assembly.

2. Disconnect the electrical plug from the sensor.

3. Connect the plug to the new sensor. Carefully fit the new

sensor to the hydraulic assembly, ensuring it is fully down.

Fig. 91

Pressure Gauge

Capillary

Hall Effect

Sensor

14.19 Pressure Relief Valve (Fig. 93)

1. Drain the boiler primary circuit.

2. Disconnect the discharge pipe from the valve. Using a

suitable hexagon key undo the grub screw sufficiently to

release the valve.

3. Note the orientation of the valve, rotate it and withdraw

it from the manifold.

Hydraulic Inlet

Assembly

4. Fit the new valve and ‘O’ ring seal and set to the

previously noted orientation. Reassemble in reverse order.

Fig. 92

‘O’ ring seal

Grub Screw

Pressure Relief Valve

Fig. 93

Discharge Pipe

14.0 Changing Components

14.20 Plate Heat Exchanger (Fig. 94)

1. Drain the boiler primary circuit and remove the gas valve

as described in section 14.24.

Plate Heat Exchanger

2. While supporting the heat exchanger undo the screws

securing it to the brass manifolds.

3. Withdraw the heat exchanger upwards, taking care not to

damage any wires or controls.

Seals

4. There are four rubber seals between the manifolds and

heat exchanger which may need replacement.

LH Location Stud

Fig. 94

5. Ease the seals out of the manifold. Replace carefully,

ensuring that when the seal is inserted into the manifold it is

parallel and pushed fully in.

Rubber Seal

6. When fitting the new heat exchanger note that the left

hand location stud is offset towards the centre more than the

right hand one.

7. Reassemble in reverse order.

14.21 Diverter Valve - Motor Unit & Assembly

(Fig. 95)

1. To replace the motor unit, disconnect the multi-pin plug.

2. Pull off the retaining clip and remove the motor unit.

Motor Unit

3. The motor unit can now be replaced, or the valve

assembly removed.

Multi-pin Plug

4. Drain the primary circuit and draw off any hot water once

the isolating taps are closed.

Retaining Clip

5. Undo the nuts on the tap rail under the boiler. Remove

the screws securing the valve assembly to the boiler bottom

panel and plate heat exchanger.

Valve

Assembly

6. Remove the valve assembly. Examine any seals or washers,

replacing if necessary. Transfer the DHW NTC to the new

valve and reassemble in reverse order.

Fig. 95

Pressure Sensor

14.0 Changing Components

14.22

P.C.B. (Fig. 98)

1. Note the settings of the temperature control knobs,

rotate them fully anticlockwise and carefully pull them off

the drive pins.

2. Completely undo the screws securing the control box

cover and release the cover retaining barbs from their slots.

Disengage the rear of the cover from the control box hinge

pin (Fig. 97).

3. Note the position of all plugs and wires on the P.C.B. and

disconnect them.

4. Undo the securing screws and remove the P.C.B. Transfer

the control knob drive pins to the new P.C.B. and turn them

fully anticlockwise.

Control Box Cover

P.C.B.

Fig. 97

5. Reassemble in reverse order, ensuring that the

temperature controllers are reset to their previous positions.

14.23 Selector Switch (Fig. 98)

Selector

Switch

1. Note the setting of the selector switch knob and carefully

pull it off the facia.

Drive Pins

2. Completely undo the screws securing the control box

cover and release the cover retaining barbs from their slots.

Disengage the rear of the cover from the control box hinge

pin (Fig. 97).

3. Note the position of the electrical connections and the

orientation of the switch. Remove the electrical connections.

4. Remove the screws securing the switch to the facia panel.

Facia

5. Fit the new switch, ensuring that it is correctly positioned

and reassemble in reverse order.

Selector Switch Knob

Temperature Control Knobs

Fig. 98

Venturi Inlet

Pipe

14.0 Changing Components

14.24 Gas Valve (Fig. 99)

IMPORTANT: After replacing the valve the CO²must be

checked and adjusted as detailed in Section 15.0 Setting

the Gas Valve. Only change the valve if a suitable

calibrated combustion analyser is available, operated by a

competent person - see section 13.1.

Gas Valve

Sensing Pipe

1. Turn the gas cock off and undo the nut on the gas feed

elbow under the boiler.

Power Lead

2. Remove the screws securing the gas valve to the boiler

bottom panel.

3. Pull off the power lead, earth lead and sensing pipe.

Earth Lead

Gas Feed

Elbow

4. Undo the nut on the gas pipe at the gas/air inlet and the gas

valve. Remove the pipe, taking care not to lose the sealing

washers. Remove the valve.

5. Remove the outlet adaptor and inlet pipe and transfer them

to the new valve. Examine the ‘O’ ring seals, replace if

necessary.

Fig. 99

6. Reassemble in reverse order., ensuring that all seals are in

place and the injector is fitted.

Throttle

Adjustment Screw

NOTE: To assist the boiler to light prior to final setting,

use a suitable hexagon key to wind out the throttle

adjustment screw until it is flush with the valve body, then

turn the screw 4 full turns clockwise (Fig. 100). If the boiler

will not light, or the correct CO²cannot be achieved

contact the ‘heateam’ technical helpline.

Fig. 100

14.25 Expansion Vessel (Fig. 101)

1. Drain the boiler primary circuit and undo the nut on the

vessel connection pipe.

Retaining Bracket

2. Remove the screw retaining the air inlet pipe, and swing the

pipe to one side.

Expansion Vessel

3. Undo and remove the locknut securing the vessel spigot to

the boiler lower panel.

4. Remove the bracket and vessel from the boiler.

5. Locate the retaining bracket on the upper flange of the new

vessel and fit to the boiler.

6. Examine the sealing washer, replacing if necessary, and

reassemble in reverse order.

Lock Nut

Boiler Chassis

Fig. 101

x 2

15.0 Setting the Gas Valve

15.1

Setting the Gas Valve (CO²check)

IMPORTANT: The CO²must be only be checked and

adjusted to set the valve if a suitable calibrated

combustion analyser is available, operated by a

competent person - see Section 13.1

Central Heating

Temperature Control

Domestic Hot Water

Temperature Control

Fig. 102

1. The combustion (CO²) may be checked after running the

boiler for several minutes. To do this it is necessary to set

the boiler to ‘Calibration Mode’.

Selector Switch

Display

2. Ensure that all external controls are calling for heat. The

Reset

actual current boiler temperature is shown on the display.

bar

3. Turn both control knobs fully anticlockwise, then quickly

turn the right hand knob ¹/⁴clockwise twice and back fully

anticlockwise (Fig. 102).

Central Heating

Temperature Control

Domestic Hot Water

Temperature Control

4. The display will now alternate between ‘SF’ and the

current boiler temperature and both green LEDs will flash

(Figs. 103 & 104).

5. Turn the left hand knob fully clockwise. As the knob is

turned the display will change, indicating the fan speed.

Fig. 104

Fig. 103

6. The display will show ‘00’, indicating maximum rate, then

revert to ‘P ‘ alternating with the current boiler temperature

(Figs. 105, 106 & 107).

7. Remove the plug from the flue sampling test point. Insert

the analyser probe and allow sufficient time for the reading

to settle (Fig. 108).

Fig. 106

Fig. 107

Fig. 105

The CO²should be 8.7% ± 0.2

Flue Adaptor Test

Point

8. It is possible to alter the CO²by adjustment of the gas

valve. Remove the plastic cover from the Throttle

Adjustment Screw. At maximum rate the Throttle

Adjustment Screw should be turned, using a suitable

hexagon key, until the correct reading is obtained (Fig. 109).

Turning clockwise will reduce the CO². Anticlockwise will

Plug

Analyser Probe

Fig. 108

increase the CO²

9. The CO²must then be checked at minimum rate. Turn

the left hand knob fully anti-clockwise. As the knob is turned

the display will change, indicating the fan speed. When the

display reads ‘ 0’ the boiler runs at minimum rate.

The CO²should be 8.4% ± 0.2

Offset

Adjustment Screw

(cap fitted)

Throttle

Adjustment Screw

(cover removed)

10. With the boiler on minimum, the Offset Adjustment

Screw must be altered, using a suitable hexagon key, after

removing the cap (Fig. 109). Turning anti-clockwise will

Reduce CO²Increase CO²

at min. rate

Reduce CO²Increase CO²

at max. rate

reduce the CO². Clockwise will increase the CO²

Gas Valve

Fig. 109

11. The ‘Calibration Function’ is maintained for 20 minutes

unless the maximum CH temperature is exceeded. The

function can be disabled at any time by turning the right

hand knob.

If the CO is reset at minimum

rate it must be rechecked at

maximum rate again and adjusted

Do not turn the adjustment

screws more than 1/8 of a turn at

a time. Allow the analyser reading

to settle before any further

adjustment

if required. If the CO is reset at

maximum rate it must be

rechecked at minimum rate and

adjusted if required.

12. Check the Combustion Performance (CO/CO²ratio).

This must be less than 0.004.

16.0 Electrical

16.1

Illustrated Wiring Diagram

Central Heating

NTC Sensor

DHW

NTC Sensor

Overheat Stat

Hall Effect

Sensor

Water Pressure

Switch

Flue Sensor

Fan

g/y

X400

X401

8 7

OptionalTimer

Control PCB

X501

Flame

Sensing

Electrode

Pump

Spark

Generator

DiverterValve

GasValve

Link

Ignition

Electrode

g/y

Mains Input Cable

- green

br - brown

bk - black

g/y - green / yellow

- red

- blue

- white

17.0 Short Parts List

Short Parts List

Key

No.

G.C.

No.

Description

Manufacturers

Part No.

426

306

311

426

315

316

422

404

306

Fan

5121447

Motor 3way Valve

Igniter Electrode

Sensing Electrode

Gas Valve

5132452

720222801

720222901

720301001

5114767

315

316

311

Hall Effect Sensor

Burner 24

Burner 28

Burner 33

5122149

5114697

419

400

Water Pressure Switch

5114748

419

624

Plate Heat Exchanger 24

248048

422

Plate Heat Exchanger 28/33 5114708

415

421

420

504

503

Pump

248042

5114725

5114729

248090

NTC Sensor

Overheat Thermostat

Pressure Gauge

400

PCB 24

PCB 28

PCB 33

5121862

720043401

720795201

415

421

420

302

503

504

18.0 Fault Finding

18.1

Initial Fault Finding Checks

NOTE: When instructed to turn the

selector to the reset position turn the

selector switch fully anticlockwise against

the spring pressure to the reset position

and hold for 5 seconds to reset the

boiler.

1. Check that gas, water and electrical supplies are available

at the boiler.

2. Electrical supply = 230V ~ 50 Hz.

3. CH water system pressurised to 0.5 bar minimum when

the boiler is cold.

4. The preferred minimum gas pressure is 20 mbar.

5. Carry out electrical system checks, i.e. Earth Continuity,

Resistance to Earth, Short Circuit and Polarity with a suitable

meter.

NOTE: These checks must be repeated after any

servicing or fault finding.

6. Ensure all external controls are calling for heat and check

all external and internal fuses. Before any servicing or

replacement of parts, ensure the gas and electrical supplies

are isolated.

18.2

Error Codes

1. If a fault occurs on the boiler an error code may be shown

by the facia display.

2. The codes are either two or three digit, preceded by the

letter 'E'. For example, code E133 will be displayed by 'E1'

alternating with '33'. E50 is shown as 'E' then '50'

Table Of Error Codes

E20

Central Heating NTC Fault

Flue NTC Fault

E28

E20, E28 & E50 indicate faulty or incorrect components.

E50

Hot Water NTC Fault

E110 shows overheat of the primary water and E130

overheat of the flue system.

E110

E119

E125

E130

E133

E160

E193

Safety Thermostat Operated

Water Pressure Switch Not Operated

Circulation Fault (Primary Circuit)

Flue NTC Operated

E119 is displayed when the primary water pressure is less

than 0.5 bar.

Interruption Of Gas Supply or Flame Failure

Fan or Fan Wiring Fault

E133 indicates that the gas supply has been interrupted,

ignition has failed or the flame has not been detected.

Pre-Circulation Fault

E125 is displayed in either of two situations:-

i) If within 15 seconds of the burner lighting the boiler

temperature has not changed by 1°.

ii) If within 10 minutes of the burner lighting the boiler

temperature twice exceeds the selected temperature by 30°.

In these instances poor primary circulation is indicated.

3. By turning the selector switch to the 'Reset' position for a

minimum of 5 seconds when E110, E130 & E133 are

displayed it is possible to relight the boiler.

4. If this does not have any effect, or the codes are displayed

regularly further investigation is required.

18.0 Fault Finding

Refer to Section 16.0 “Illustrated Wiring Diagram” for position of terminals and components

Central Heating - Follow operational sequence

Turn selector switch to

The display illuminates

Go to section ‘A’

YES

Error 110 flashing

Error 130 flashing

Error 133 flashing

If the error 110 is still flashing.

Go to section ‘J’

Turn the selector switch to

reset position for 5 seconds

YES

Error 20, 28 or 50 flashing

Go to section ‘E’

Error 119 flashing

Go to section ‘C’

Ensure controls are set to

demand and verify the

contacts are closed

Turn Central Heating

thermostat to Maximum.

Pump runs

Ensure all controls (and

integral clock if fitted) are

calling for heat

YES

Go to section ‘B’

YES

Ensure that primary

circulation is OK & that

there is no blockage

YES

Error 125 or 193 flashing

3-way valve is open to Central

Heating circuit

Go to section ‘K’

YES

Error 160 flashing

Go to section ‘D’

Fan runs

YES

Error 160 flashing

Go to section ‘L’

Fan runs at correct speed

YES

Go to section ‘H’

Turn the selector switch to

reset

Spark at ignition electrodes for

up to 5 seconds and for 3

attempts

YES

Error 133 flashing

Go to section ‘F’

YES

Burner does not stay alights

after 5 seconds

Error 133 flashing

Go to section ‘I’

Burner lights

Check the Central Heating

NTC sensor

YES

Go to section ‘E’

Burner output modulates to

maintain the temperature set

Error 130 flashing

Go to section ‘M’

YES

Pump continues to run for 3

YES

Operation sequence

successful

Burner goes out

Fan stops after 10 seconds

minutes

(room thermostat open)

18.0 Fault Finding

Domestic Hot Water - Follow operational sequence

Turn selector switch to

The display illuminates

Go to section ‘A’

YES

Error 110 flashing

Error 133 flashing

If the error 110 is still flashing.

Go to section ‘J’

Turn the selector switch to

reset position for 5 seconds

YES

Error 20, 28 or 50 flashing

Go to section ‘E’

Go to section ‘C’

Error 119 flashing

Go to section ‘B’

YES

Turn Domestic Hot Water

thermostat to Maximum.

Open DHW tap fully.

DHW Hall Effect sensor

operated (red neon on the

sensor illuminated

Is mains water filter and

assembly clean?

Is the magnetic detector free

to move in the Hall Effect

sensor

YES

DHW flow rate more than 2

l/min

YES

3-way valve is open to

Domestic Hot Water circuit

Go to section ‘K’

YES

Error 125 flashing

Go to section ‘B’

Pump runs

YES

Error 160 flashing

Go to section ‘D’

Fan runs

YES

Error 160 flashing

Go to section ‘L’

Fan runs at correct speed

YES

Go to section ‘H’

Turn the selector switch to the

reset position for 5 seconds

Spark at ignition electrodes for

up to 5 seconds and for 3

attempts

YES

Error 133 flashing

Go to section ‘F’

YES

Burner does not stay alights

after 5 seconds

Error 133 flashing

Go to section ‘I’

Burner lights

YES

Clean DHW NTC sensor

and DHW heat exchanger

Reduce DHW flow rate

Burner modulates

Burner output modulates to

maintain the temperature set

Error 130 flashing

Go to section ‘M’

YES

Close DHW tap

YES

DHW flow sensor senses no

flow. Burner goes out

YES

Operation sequence

successful

Fan stops after 10 seconds

Pump runs for 30 seconds

18.0 Fault Finding

Fault Finding Solutions Sections

Is there 230V at:

Main terminals L and N

Main terminal fuse

Check electrical supply

Replace fuse

Display

illuminated

Replace PCB

Check wiring

PCB - X1 connector

terminals 1,2

Is there 230V at:

YES

Pump

If pump jammed, release

Replace pump

Replace PCB

PCB - X3 connector terminals 3 & 4

YES

Change pump supply cable

YES

CH system pressure less than 0.5 bar

Re-pressurise system

Check connection water pressure

switch terminal

YES

Replace water

pressure switch

COM - NO and PCB connector

X400 terminals 3,4

Check the tap of the automatic air

vent is opened

Open the automatic air vent

Fan connections correct at fan. PCB -

X2 connector, is 230V AC across

terminals 5 & 7

YES

Fan jammed or faulty winding

Replace PCB

Replace fan

18.0 Fault Finding

E20 or E50 - Temperature sensors faulty.

Cold resistance approximately

10kΩ @ 25° C (DHW and CH sensors)

20kΩ @ 25° C (Flue sensor)

Replace sensor or PCB (E28)

(resistance reduces with increase in temp.)

E28 - Incorrect PCB fitted

Check and correct the connection of the

tube between the venturi and gas valve

Gas at burner

Ensure gas is on and purged

YES

PCB - X3 connector is 230V AC across

terminals 1 & 2

Replace gas valve

Replace PCB

Ensure that the Hall Effect Sensor is in position.

Check the connection between the PCB - X400

connector terminals 3,6,7 and the electronic sensor

YES

Check the voltage between red wire and blue

wire is more than 5V DC

YES

Replace PCB

Replace Hall

Effect Sensor

Voltage at PCB - X2 connector is at

least 100V DC across terminals 2 & 5

(Note: from multimeter connect

‘common’ to 2 & ‘volts’ to 5).

Check wiring

YES

Check and correct if necessary

Replace PCB

YES

1. Ignition electrode and lead

2. Electrode connection

3. Spark gap and position

Replace igniter

Burner

Viewing Window

Sensing

Spark Ignition

Electrode

Electrode Position

18.0 Fault Finding

Check supply pressure at the

gas valve:-

Minimum 17 mbar

Check and correct if necessary

1. The mechanical set of the gas valve

(CO2 values - see instruction)

2. Flame sensing electrode and lead connections

3. Flame sensing electrode position

YES

Replace PCB

Replace flame sensing electrode

Flame current should be more than 0.5 μ A

Overheat thermostat operated or

Allow to cool. Continuity

across thermostat terminals

more than 1.5 ohm

YES

Replace safety thermostat

faulty, i.e. continuity across

thermostat terminals

YES

Replace PCB

Is there 230V at:

YES

Motor 3-way valve

Replace motor 3-way valve

2. PCB - X3 connector terminals

5 & 6 central heating mode

Replace PCB

5 & 7 domestic hot water mode

YES

Change pump supply cable

YES

Fan connections correct at fan.

PCB - X401 connector terminals 5,6,7 & 8

Replace fan

Temperature sensors faulty.

Cold resistance approximately

10kΩ @ 25° C (CH sensor)

20kΩ @ 25° C (Flue sensor)

(resistance reduces with increase in temp.)

Replace sensor

YES

Replace heat exchanger

If pump is running the heat exchanger could be

obstructed

19.0

Notes

19.0

Notes

Failure to install and commission according to the manufacturer’s instructions and complete this Benchmark Commissioning Checklist will invalidate the warranty. This

does not affect the customer’s statutory rights.

If yes, and if required by the manufacturer, has a water scale reducer been ﬁtted?

CONDENSING BOILERS ONLY

The condensate drain has been installed in accordance with the manufacturer’s instructions and/or BS5546/BS6798

If the condensate pipe terminates externally has the pipe diameter been increased and weatherproof insulation ﬁtted?

Yes

Service Record

It is recommended that your heating system is serviced regularly and that the appropriate Service Interval Record is completed.

Service Provider

Before completing the appropriate Service Record below, please ensure you have carried out the service as described in the

manufacturer’s instructions.

Always use the manufacturer’s speciﬁed spare part when replacing controls.

Service 1

Service 2

Date:

Engineer Name:

Company Name:

Telephone No.

Company Name:

Telephone No.

Gas Safe Register No.

Comments:

Gas Safe Register No.

Comments:

Signature:

Service 3

Service 4

Date:

Engineer Name:

Company Name:

Telephone No.

Company Name:

Telephone No.

Gas Safe Register No.

Comments:

Gas Safe Register No.

Comments:

Signature:

Service 5

Service 6

Date:

Engineer Name:

Company Name:

Telephone No.

Company Name:

Telephone No.

Operative ID No.

Comments:

Gas Safe Register No.

Comments:

Signature:

Service 7

Service 8

Date:

Engineer Name:

Company Name:

Telephone No.

Company Name:

Telephone No.

Gas Safe Register No.

Comments:

Gas Safe Register No.

Comments:

Signature:

Service 9

Service 10

Date:

Engineer Name:

Company Name:

Telephone No.

Company Name:

Telephone No.

Gas Safe Register No.

Comments:

Gas Safe Register No.

Comments:

Signature:

All descriptions and illustrations provided in this leaflet have been carefully prepared

but we reserve the right to make changes and improvements in our products which

may affect the accuracy of the information contained in this leaflet. All goods are

sold subject to our standard Conditions of Sale which are available on request.

POTTERTON

A Trading Division of Baxi Heating UK Ltd (3879156)

Brooks House, Coventry Road, Warwick. CV34 4LL

After Sales Service 0844 871 1560 Technical Enquiries 0844 871 1555

Website www.potterton.co.uk

e&oe

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