Miele PT 8333 HW, PT8337 HW, PT 8403 HW, PT 8503 HW, PT8507 HW Installation diagram

Installation plan

Tumble dryer

PT 8333 / 8337 HW

PT 8403 / 8407 HW

PT 8503 / 8507 HW

PT 8803 / 8807 HW

Always read operating and installation instructions before
Installation and Commissioning.
This is for the protection of yourself and your machine.

en - GB

09 401 450 / 02

Legend:

Connection required

Connection optional or required,
depending on model

AL

Vent connection

HWV

Hot water valve

AM

Connection module

PA

Equi-potential bonding

B

Machine anchors

RL

Hot water return feed

EL

Electrical connection

VL

Hot water feed

F

Adjustable machine feet

XKM

Communication module

HWA

Hot water valve, connection

ZL

Air supply connection

All rights reserved! 07/14/4

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Machine dimensions PT 8333 / 8337

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en - GB PT 8333 / 8337/ 8403 / 8407 / 8503 / 8507 / 8803 / 8807

Machine dimensions PT 8403 / 8407

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Machine dimensions PT 8503 / 8507

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en - GB PT 8333 / 8337/ 8403 / 8407 / 8503 / 8507 / 8803 / 8807

Machine dimensions PT 8803 / 8807

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PT 8333 / 8337/ 8403 / 8407 / 8503 / 8507 / 8803 / 8807 en - GB

Technical data

PT 8333 / 8337

PT 8403 / 8407

PT 8503 / 8507

PT 8803 / 8807

Drum volume

l

330

400

500

800

Load capacity (load ratio 1:25)

kg

13

16

20

32

Load capacity (load ratio 1:32)

kg

10

13

16

25

Porthole diameter

mm

520

520

520

520

Door hinge, rehingeable (right/left)

  



Connection data

Heater rating / Nominal heat load

kW

5.9

6.8

8.3

10.7

Fan motor rating

W

400

700

700

1100

Drive motor rating

W

300

550

550

750

Electric connection (EL)

Standard voltage

1N AC 230 V

3N AC 400 V

3N AC 400 V

3N AC 400 V

Frequency

Hz

50

50

50

50

Max. rated load

kW

0.8

1.3

1.3

1.9

Fuse rating (Trip characteristics B according to EN 60898)

A

1 x 10

3 x 10

3 x 10

3 x 10

Supply lead minimum cross-section

mm²

3 x 1.5

5 x 1.5

5 x 1.5

5 x 1.5

Hot water feed

Rated load

kW

5.9

6.8

8.3

10.7

Temperature range of heating medium

°C

70 - 90

70 - 90

70 - 90

70 - 90

Flow rate range

m³/h

0.3 – 1.5

0.3 – 1.5

0.3 – 1.5

0.3 – 1.5

Temperature gradient Feed/Return

K

< 15

< 15

< 15

< 15

Max. operating pressure

kPa

1000

1000

1000

1000

Resistance at nominal rating (1 m³/h flow rate)

kPa 1 1 1 1

Connection thread (ext. thread)

G

½“

½“

½“

½“

Hot water return feed

Connection thread (ext. thread)

G

½“

½“

½“

½“

Hot water valve connection (HWA)

Connection voltage

V

1N AC 230

1N AC 230

1N AC 230

1N AC 230

Frequency

Hz

50

50

50

50

Max. permissible connection load

A

0.5

0.5

0.5

0.5

Connection cable for control valve

  



Length of supply lead (supplied)

mm

approx. 500

approx. 500

approx. 500

approx. 500

Hot water valve (HWV)

Controlled valve with electrical connection

NC contact, 100% duty cycle

Min. temperature of heating medium

°C

100

100

100

100

Pressure range

bar

0 - 10

0 - 10

0 - 10

0 - 10

Differential pressure (pressureless for circulation system)

bar 0 0 0 0

kV value min.

m³/h

6.0

6.0

6.0

6.0

Waste air connection (AL)

Connection (ext. diameter)

mm

150

150

150

150

Waste air temperature max.

°C

80

80

80

80

Max. permissible pressure loss

Pa

200

300

300

300

Vent air throughput

Max. without counterpressure (0 Pa) in recirculation mode

m³/h

470

730

850

1060

Max. permisible counterpressure in recirculation mode

m³/h

395

610

620

960

Max. without counterpressure (0 Pa) in vented mode (PT 8xx7 only)

m³/h

575

750

1000

1110

Max. permissible counterpressure in vented mode (PT 8xx7 only)

m³/h

510

690

960

1040

Air supply connection (ZL)

Standard installation: Air supply from installation room

  



Alternative installation: Direct air supply to machine

  



Connection at machine (int. diameter)

mm

161

161

161

161

Connection pipe provided on site (ext. diameter)

mm

160

160

160

160

 = standard,  = optional, + = only on request, - not available

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Technical data

PT 8333 / 8337

PT 8403 / 8407

PT 8503 / 8507

PT 8803 / 8807

Equi-potential bonding (PA)

Hole for bolt (diameter)

mm

10

10

10

10

Connection modules (AM)

End-of-programme signal

  



Output signal - External air baffle

  



Output signal - Drying fan in operation (PT 8xx7 only)

  



Payment system connection (BSK)

 - - -

Peak-load/energy management connection (BSS)

- - - -

Machine feet (F)

No. of feet

Pcs. 4 4 4 4

Machine feet, height-adjustable with thread

mm

±10

±10

±10

±10

Foot diameter

mm

25

25

25

25

Anchors (B)

Set of anchors (for 2 feet) using slotted washers

  



Wood screw according to DIN 571

mm

6 x 40

6 x 40

6 x 40

6 x 40

Rawl plug (dia. x length)

mm

10 x 50

10 x 50

10 x 50

10 x 50

Machine data

Weights and floor loads

Shipping weight (incl. packaging)

kg

219

240

290

348

Machine weight (net weight)

kg

201

216

265

318

Max. floor load in operation

N

2250

2348

2893

3708

Site access dimensions

Site access dimensions (H/W)

mm

1420/920

1420/920

1650/1030

1650/1220

Machine dimensions

Overall dimensions (H/W/D)

mm

1400/906/1035

1400/906/1164

1640/1206/1018

1640/1206/1384

Casing dimensions excl. fittings (H/W/D)

mm

1400/900/930

1400/900/1059

1640/1200/913

1640/1200/1279

Installation dimensions

Min. side machine clearance

mm

20

20

20

20

Recommended wall gap to machine front

mm

1500

1600

1600

1800

Wall gap to machine lid (min.)

mm

500

500

500

500

Sound emissions

Sound pressure according to EN ISO 11204, workplace-related

dB (A)

55

60

60

62

A sound power level according to EN ISO 9614 Part 2

dB (A)

67.6

72.8

72.2

73.6

Heat dissipation to installation room

W

570

733

902

1106

Options / Accessories

PT 8333 / 8337

PT 8403 / 8407

PT 8503 / 8507

PT 8803 / 8807

Communication module (XKM)

Slot for communication module

  



Communication module for serial connection (XKM RS232)

  



Box plinth (UG)

Box plinth, H 127 mm (UG 8325)

- -

- 

Accessories

Hot water connection kit (incl. connection hoses and control valve)

+ + + +

Silencer DN150 (MSS 01)

  



Key chipcard

  



Memory chipcard (pack of 3)

  



 = standard,  = optional, + = only on request, - not available

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PT 8333 / 8337/ 8403 / 8407 / 8503 / 8507 / 8803 / 8807 en - GB

Installation plans and planning notes

Installation requirements

Electrical connection must be in full compliance with national
regulations and guidelines and with relevant local codes.

Guidelines issued by power utilities and insurance companies,
occupation safety regulations and general good practices apply
throughout.

The machine should only be installed and commissioned by Miele
Service or the trained personnel of an authorised service agent.

General operating conditions

Ambient temperature at place of installation: 5°C - 40°C
Relative humidity: 10% - 85%

This machine should not be installed in the same room as dry­cleaning machines using PERC or solvents containing CFCs. Solvent
vapours could be converted to hydrochloric acid through sparks and
result in further consequential damage.

Electrical connection

Connection to the electricity supply should only be performed by
qualified and properly trained persons. Please pay attention to the
enclosed wiring diagram and installation instructions.

A flexible supply lead is not supplied with the machine and should be
provided on site.

Cross-sectional requirements stated in the technical data only refer to
the required supply lead. To calculate the gauge of further cables,
please refer to national and local regulations.

The machine can be hard-wired or installed with a plug connection
according to IEC 60309-1. A wall socket or mains isolator must be
accessible after installation.

A suitable plug and socket connection is recommended to facilitate
accessibility for electrical safety tests.

During connection, the phase sequence should be checked to ensure
the correct direction of motor rotation.

Hot water connection

To supply the tumble dryer with hot water as a source of drying
energy, it is necessary to install feed and return feed supply pipework.

The machine should only be connected to hot water in compliance
with VDI 2035 in order to ensure a sufficient degree of protection
against corrosion.

To ensure a sufficient supply of heat to the machine, it is necessary to
calculate the supply pipework capacity in detail. This is particularly the
case when connecting several machines to a common heating circuit.

To ensure a steady supply of heat, it is necessary to install a feed
pump in the on-site heating circuit. The heat pump should be
dimensioned according to the technical requirements of the tumble
dryer.

Flexible, pressure- and heat-resistant hose connections are
recommended to connect the machine to the hot water supply.

In order to ensure a sufficient flow rate in the entire circuit, the interior
diameter of the connection hoses should at no point be less than
18 mm. Otherwise, this may have a detrimental impact on the drying
cycle duration. A suitable control valve must be fitted in the feed line
to control the water intake flow. This valve is controlled directly by the
controls on the tumble dryer. The control valve must be installed in
close proximity to the machine connection point.

A hot water connection kit, Art, no. 59430001D, is available as an
accessory for the proper connection of tumble dryers.

The installation of shut-off valves in the on-site feed and return feed
lines at the connection point is recommended. Depending on
requirements, on-site venting at the point of connection should also be
provided.

Vent connection

The hot moisture-laden waste air should be vented to atmosphere or
into a suitable venting system along the shortest possible route.

Moist waste air may condense to varying degrees along the pipework,
depending on the length and nature of pipework. For this reason, it is
recommended that pipework is installed with downward gradient
towards the point of exit.

A condensate drain should be provided at the lowest points in rising
stretches of pipework, either in the form of a collection vessel or via a
suitable floor drain.

On no account should condensate flow back into the machine!

It is permissible for waste air to be vented to atmosphere outside the
building. This should, however, not pose any risks or be a source of
annoyance to neighbouring buildings.

The end of a pipe venting waste air to atmosphere should be
protected against the elements either using a deflector canopy or with
a 90° downward pipe bend.

The vent line cross-section should not be reduced or obstructed in any
way. Filters and grilles should not be incorporated.

Any blockage of the passage of air through the waste air ducting can
result in impaired machine performance or to machines switching off
automatically for safety reasons.

Proper machine functioning cannot be guaranteed if the max.
permissible pressure loss in the on-site vent ducting system is
exceeded.

When connecting several machines to a single collection line, care
must be paid to ensure an adequate cross-section.

A non-return baffle should be fitted for each machine to prevent
machines from influencing each other via the waste air ducting.
Baffles should be provided on site.

When merging the waste air from several machines into a
collection pipe, a non-return device must be installed on each
machine.

Complex air vent ducting involving bends and additional fittings and
the collection of several machines to a single collection line requires
detailed calculations which should be carried out by a qualified fitter or
planner.

Air intake

The air supply to the machine is via the room of installation.
A sufficient supply of air to the room of installation must be

guaranteed during operation. Depending on the specific installation,
the amount of air expelled to atmosphere must be replaced to prevent
vacuum conditions from occurring within the installation room.

Air intake grilles must be unobstructed at all times to ensure an
adequate supply of air.

Alternatively, machines can be connected to air supply pipework
bringing in fresh air from outside the building.

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The machine is supplied with a cover on the air intake connection.
This cover must be removed before connecting the machine to air
supply ducting.

Removal of the cover exposes live components! For safety reasons,
the first pipe connected for central air intake should be at least 900
mm long and secured using two screws.

Equi-potential bonding

If necessary, equipotential bonding with good galvanic contact
must be provided in accordance with all appropriate national and
local regulations.

Equi-potential bonding materials must be provided on site.

Installation and anchoring

The machine must be installed on a perfectly flat, horizontal and firm
surface able to support the quoted floor loads.

The machine should be installed level from side to side and from front
to back using a spirit level and the adjustable machine feet. Anchoring

the machine to the floor is recommended.
The anchors and fittings supplied can be used to secure the machine

feet to the floor. The materials supplied are intended for rawl plug
anchors in concrete floors.

Suitable anchors must be provided on site for all other floor types.

Plinth installation

The machine can be installed on a plinth (PT 8337 only) available as
an accessory or on a concrete plinth provided on site.

The grade of concrete should be suitable for the load. Care should be
taken to ensure a proper bond between a concrete plinth and the
substrate.

Anchoring is required whenever a machine is installed on a plinth
(concrete plinth or masonry plinth).

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