REMKO AMT 30 User Manual

REMKO AMT 30 – 50
Mobile Dehumidifier

Operation
Technology
Spare Parts

Edition GB – M02

REMKO - powerful like a bear.

Operating Instructions

Make sure to read these instructions carefully before starting/using the unit!

Our guarantee will become void when the unit supplied by us is used and

installed for inadequate purposes, or maintained incorrectly, etc.,

or if it is changed without our prior consent.

Subject to alterations!

Mobile Dehumidifier

REMKO AMT 30 - 50

Contents page

Air Dehumidification 4
Safety Instructions 6
Unit Description 6
Installation 8
Starting 8
Working Range 9
Discard the Unit 9
Transport Instructions 9

Always keep these operating instructions near or on the unit!

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Contents page

Maintenance and Service 9
In Case of Troubles 10
Technical Data 11
Wiring Diagram 11
Exploded View AMT 30 12
Spare Part List AMT 30 13
Exploded View AMT 50 14
Spare Part List AMT 50 15

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3

Air Dehumidification

The processes that take place during air dehumidifica­tion are based on physical laws. We will try to describe
these in a simplified form to give you a rough idea about
the principle of air dehumidification.

The Use of REMKO Air Dehumidifiers

◊ No matter how well doors and windows are insu-

lated, wetness and humidity penetrate even through
thick concrete walls.

◊ The water quantities required for binding regarding

the production of concrete, mortar, plaster, etc. need
in some cases 1 or 2 months to diffuse.

◊ And even the humidity that penetrates into the brick-

work after floods and inundations is released very
slowly.

◊ E.g. this is also the case regarding humidity con-

tained in stocked materials.

The humidity that emanates from parts of buildings or
materials (water vapour) is absorbed by the ambient air.
Consequently the humidity content of the air increases
which results in corrosion and in the formation of mil­dew, decay, flaked off paint coats and other undesired
damage caused by humidity.

E.g. the following diagram shows in an exemplary way
the corrosion speed of metal at different air humidity
rates.

There are two different ways of drying the buildings:

1. By heating and exchanging the air:
The ambient air is heated to absorb humidity and to

be carried off to the outside. However, the total gen­erated energy is lost with the carried off humid air.

2. By dehumidifying:
The humid air in the closed room is continuously de-

humidified according to the condensation principle.

Dehumidification has a decisive advantage regarding
energy consumption:

Energy is exclusively needed for the existing room vol­ume. The mechanical heat released during the dehu­midification process increases the room temperature
slightly.

When used correctly the air dehumidifier consumes
only approx. 25 % of the energy to be supplied accord­ing to the “heating and ventilation” principle.

Relative Air Humidity

Ambient air is a gas mixture and it always contains a
certain rate of water in the form of water vapour.

This percentage of water is indicated in g per kg of dry
air (absolute water content).

1 m³ of air weighs approx. 1.2 kg at 20° C.
Depending on the temperature each kg of air can only

absorb a defined quantity of water vapour. When this
quantity has been absorbed, the air is “saturated” and
has a relative humidity of 100 %.

By relative air humidity we understand the relation be­tween the percentage of water vapour contained in the
air at the moment concerned and the maximum possi­ble percentage of the water vapour, based on equal
temperatures.

The capacity of air to absorb water vapour increases
with raising temperatures. This means that the maxi­mum possible (= absolute) water content is increased
with increasing temperatures.

As you can see the corrosion speed is insignificant at a
relative air humidity of less than 50 % and at a humidity
rate of less than 40 % it can even be neglected. When
the relative humidity exceeds 60 % corrosion speed in­creases considerably.

This limit regarding damages caused by humidity is also
applicable to many other materials, such as powdery
substances, packing materials, wood, and electronic
apparatuses.

4

Temp. °C

-5 1,3 1,9 2,6 3,3
+10 3,8 5,6 7,5 9,4
+15 5,1 7,7 10,2 12,8
+20 6,9 10,4 13,8 17,3
+25 9,2 13,8 18,4 23,0
+30 12,9 18,2 24,3 30,3

Water vapour content in g/m³ at an air humidity of

40% 60% 80% 100%

Water Vapour Condensation

+

+

The maximum possible percentage of water vapour
that can be absorbed becomes higher while the air is
heated, but the obtained percentage of water vapour
remains unchanged, and consequently the relative air
humidity is reduced.

However, when the air is cooled the maximum possi­ble percentage of water vapour that can be absorbed
is continuously reduced, whereas the water vapour
quantity contained in the air remains unchanged, and
consequently the relative air humidity rises.

When the air is further cooled off the absorption ca­pacity regarding the maximum possible water vapour
quantity is continuously reduced until it is equal to the
obtained percentage of water vapour. This is the dew
point temperature.

If the air is cooled down below the dew point, the ob­tained percentage of water vapour will be higher than
the maximum possible water vapour quantity.

Water vapour is deposited.

It condenses, is converted into water and thus is ex­tracted from the air

Steamed up window panes in winter or
steamed up bottles containing cold drinks
are typical examples of condensation.

The higher the relative air humidity is, the
higher is the dew point temperature, and
consequently it is easier for the tempera­tures to fall below the dew point.

Material Drying

Building materials/buildings can absorb considerable
quantities of water; e.g. bricks 90-190 l/m³, heavy con­crete 140-190 l/m³, calcareous sandstone 180-270 l/m³.
Humid materials such as brickwork dries in the following
way:

◊ The contained humidity flows from the

inside of the material to its surface

◊ Evaporation takes place on the sur-

face = water vapour is absorbed by the
ambient air.

◊ The air enriched with water vapour is continuously cir-

culating through the REMKO air dehumidifier. It is de­humidified and leaves the apparatus in a slightly
heated up state to absorb again water vapour.

◊ By this the humidity contained in the material is con-

tinuously reduced; the material becomes dry.

The air current is cooled off on its way through/via the
evaporator until its temperature falls below the dew
point. The water vapour condenses, it is collected in a
condensate trap and carried away.

°C

% r.F.

30

100

90

25

20

15

80
70
60
50
40
30
20
10

-

condenser evaporator

air-temperature

air-direction

humidity

course

Condensation Heat

The energy transferred from the condenser to the air
consists of:

◊ The heat that was previously extracted in the evapo-

rator.

◊ The electric driving energy.
◊ The condensation heat released by liquefying water

vapour.

When the liquid condition is converted into a gaseous
condition energy must flow back. This energy is called
evaporation heat. It does not cause the temperature to
raise but is used for the conversion from the liquid to
the gaseous state. On the other hand energy is re­leased when gas is liquefied, and this energy is called
condensation heat.

The energy rate of evaporation and condensation heat
is identical.

For water this is 2250 kJ / kg ( 4,18 kJ = 1kcal )
This shows that a relatively high energy rate is released

through water vapour condensation.
If the humidity to be condensed is not generated by

evaporation within the room, but fed from the outside,
e.g. by aeration, the condensation heat released
thereby contributes to room heating.

When materials or rooms are to be dried the heat en­ergy flows in a circulation, i.e. it is consumed during
evaporation and released during condensation.
A larger amount of heat energy is generated when fed
air is dehumidified, and this heat energy is expressed in
the form of a rise in temperature.

The generated conden­sate is collected in the
apparatus and carried
away.

Generally the time needed for drying does not depend
on the apparatus capacity, but it is determined by the
speed at which the material or the parts of the building
emit the humidity contained in them.

5

Safety Instructions

REMKO dehumidifiers will provide you with high utility
and long life thanks to our extensive material, function
and quality controls.

Dangers may arise nevertheless if the unit is used by
persons not familiar with its operation or if the unit is not
used for its intended purpose.

◊ Make sure to install and use the unit only in explo-

sion-proof rooms.

◊ Make sure not to install and use the unit in an atmos-

phere containing fuel, oil, sulphur and salt.

◊ Make sure to install the unit on a solid base and in a

vertical position.

◊ Make sure not to expose the unit to a direct water

jet.

◊ Make sure that the air can be freely sucked in and

blown off.

◊ Make sure that the suction side is always free from

dirt and loose objects.

◊ Never put objects into the unit.
◊ Do not cover the unit during operation.
◊ Make sure not to transport the unit during operation.
◊ Avoid strong vibrations on the unit as soon as there

is condensate in the condensate tank.

◊ Make sure to protect all electric cables outside the

unit from damage (e.g. by animals).

◊ Before installing connection cable extensions make

sure that they are suitable for the connected power,
cable length and the intended purpose.

◊ Make sure to empty the condensate tank before in-

stalling the unit in another place.

◊ Make sure to transport the unit only in a vertical posi-

tion.

◊ Damage on the compressor will be avoid by a wait-

ing period of at least 3 minutes before starting the
unit.

◊ Uses/operations other than that indicated in these

operating instructions are not allowed!

In the case of non-observation, any of our responsi­bilities and guarantees will become void.

Any work regarding the refrigerating plant and its
electrical equipment is to be carried out exclu-

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sively by especially authorized experts!

Important Tip Regarding Recycling!

◊ The unit is to be used with the environmentally

friendly, ozone-neutral refrigerant R407C.

◊ The refrigerant/oil mixture in the unit is to be dis-

posed of correctly and in accordance with the legal
or local prescriptions.

Unit Description

These unit have been designed for automatic, universal
and problem-free air dehumidification.

Thanks to their compact dimensions they can be easily
transported and installed.

The unit work according to the condensation principle
and are equipped with a hermetically sealed refrigerat­ing plant, a silent nearly maintenance-free ventilator as
well as with a connection cable with plug.

For an operation-control exists a green control-lamp
“operation” and a yellow control-lamp “condensate tank
full” on the control-panel. The correct time of operation
will record by a hour counter.

The fully automatic control, the water container incl. an
overflow-protection and a hose-nipple guaranteed a
continuously operation.

The unit correspond to the fundamental safety and
health requirements of the relevant EC regulations, they
operate safely and are easy to handle.

Function

If you switch on the unit on the main switch, it will run in
a fully automatically operation.

fan

condenser

evaporator

dehumidified
ambient air

compressor

The fan sucks in the ambient air via the air filter, the
evaporator and the condenser placed behind the latter.

Heat is extracted from the ambient air at the cold
evaporator. It cools down below the dew point, and the
water vapour contained in the air is deposited as con­densate or hair frost on the evaporator lamellas. When
necessary the evaporator is defrosted with hot gas with
temperature control.

The dehumidified cooled down air is reheated at the
condenser (heat exchanger), and then it is blown out
when it has reached a temperature of approx. 3 - 5 de­grees above the ambient temperature.

The treated dry air is mixed with the ambient air.
Thanks to the continuous circulation of the ambient air
through the unit, the relative air humidity in the place of
installation is continuously reduced until it has reached
the desired value.

ambient air

floater

condensate tank

Schematic display of function

6

Unit Operation

Installation of the condensate tank

The units are equipped with a temperature-controlled
hot gas defrosting system. This system is equipped with
a feeler which has been mounted between the evapora­tor lamellas. When the formation of hair-frost on the
evaporator increases, its heat absorption capacity is re­duced due to the insulating characteristics of the hair­frost.

Consequently the temperature on the evaporator's sur­face falls.

As soon as the temperature has fallen below a defined
minimum value, the refrigeration circulation is reset to
the defrosting position and dehumidification is inter­rupted for a short time.

As soon as the hair-frost (ice) has been defrosted and
temperature raises again at the sensor, the unit is reset
to the normal dehumidification operation.

When room temperature is high enough, lamella sur­face never becomes so cold as to allow the formation of
hair-frost; consequently defrosting is not necessary.

REMKO air dehumidifiers operate very economically.
Depending on the room temperature and the air humid­ity only approx. 30 or 40 % of electric energy are con­sumed for the cooling capacity of the unit.

We recommend cleaning of the condensate tank with a
clean cloth after its removal.

◊ Please install the cleaned tank carefully.
◊ Make sure that the little, black filler cap is in the hose

nipple (as shown below).

A missing filler cap survives overflow-danger.

◊ When the condensate tank is reinstalled make sure

that it is in the correct position.

◊ The unit will only re-start if you close the lock cover

correctly.

Tender spot.

Make sure that the filler cap is fit in correctly.

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Operation with hose connection
The condensate tank is equipped with a hose nipple. Af-

ter you have removed the filler cap you can connect a
standard water hose (is not included in our delivery).

condensate tank

sliding

A

Depending on the air temperature
and the relative air humidity the con­densed water drips either continu­ously or only during the defrosting
phase into the condensate tank.

The condensate tank is located on
the front behind a lock cover.

In the condensate tank there is a
floater, which interrupts the dehu­midification operation by means of a
micro switch when the tank is full.

The unit stops working and the yel­low control lamp A on the control­panel lights up.

Please evacuate the tank like fol­lows:

1. Open the lock cover and lift the
container slightly and then pull it
carefully forward to remove it.

2. Open the sliding (as shown
above) and pours out the con­densate.

Connection pipe
11 mm ø

A connection of a water hose al­lows you a uncontrolled continu­ously operation.

1. Open the lock cover and re­move the filler cap from the
tank.

2. Fit the water hose on the hose
nipple.

3. Lead the water hose through
the hole in the unit-button.

Right side of the condensate
tank.

4. Close the lock cover with a lit­tle push.

5. Lead the condensate into a
bowl installed at a lower level.

filler cap

When the unit has been switched off, the evapo­rator can further defrost through the ambient
temperature. Make sure that condensate does

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not continue dripping!

Make sure that the discharge hose is installed to
a lower level, in such a way as to ensure unhin­dered drainage of condensate from the conden-

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sate tank.

7

Installation

◊ Install the unit in a horizontal position to ensure the

trouble-free drainage of condensate.

◊ Install the unit in the middle of the room, if possible,

to ensure optimal air circulation.

◊ If this is not possible due to the conditions in the

building make sure that the air can be easily sucked
in at the front of the unit and blown off from its rear
part.

◊ Make sure to observe a minimum distance of 50 cm
◊ Do not install the unit directly near radiators

or other heat sources.

◊ Make sure to keep the room to be dried and

dehumidified closed, so that air from outside cannot
penetrate into it.

◊ Entering into and going out of the room should be

avoided if possible.

◊ You can obtain better air circulation if you place the

unit at a height of approx. 1 m.

Starting

The filter of the unit is to be controlled and
cleaned thoroughly before every use. If the air
suction grille is dirty, please cleaned it up like

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shown in chapter ”Maintenance and Service”.

1. Introduce the main plug into a prop­erly protected plug socket.

230V/1~ 50 Hz / fuse 16 A

2. Put main switch into position „I”.

Green control lamp “operation” is lit
up.

Important Hints for the installation:

◊ Connection cable extensions may only be used

when they have been completely unrolled.

◊ The lock cover in front of the condensate tank have

to be closed correctly (tender spot).

Important Hints!

◊ Make sure that appropriate measures for mainte-

nance and care are taken when the unit is installed
in dusty surroundings as well as in stables with am­moniacal atmosphere

See chapter “Maintenance and Care”.

◊ The electrical connection of the unit is to be carried

out according to DIN VDE 0100, part 704. It is to be
connected to service entrances with residual current
operated device.

◊ If the unit is installed in washhouses, showers or

similar wet areas the user has to protect it by an ade­quate residual current operated device according to
the relevant regulations.

Operation with Hygrostat

The REMKO hygrostat (accessory) is supplied with a
special intermediate plug.

1. Insert intermediate plug into a properly protected
plug socket.

2. Position hygrostat in an adequate place within the
room to be dehumidified.

Not directly near the unit.

3. Connect the unit plug with the
intermediate plug.

4. Put main switch of the unit into
position “I”.

5. Preselect the desired humidity
by setting the hygrostat.

The unit is automatically switched on if the humidity rate
in the room is higher than the previously set valve.

The unit operates fully automatically until the prese­lected relative air humidity has been reached or until the
unit has been switched off by the floater in the conden­sate tank.

In such a case the yellow control lamp “condensate tank
full” is lit up.

8

Working Range

Dehumidification performance depends exclusively
upon the design of the room, the room temperature, the
relative humidity and the correct observance of the
setup instructions.

The dehumidification performance increases with the
room temperature and relative humidity.

For a reliable operation the following working-range is
valid:

◊ Room temperature between 6 °C and 32 °C
◊ Relative humidity between 40% and 100% r. h.

The proper functioning of the unit cannot be guar­anteed at temperatures below 10 °C or a relative

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humidity of less than 40% r. h.

Discard the Unit

Put the operating switch into “0” position.
Damage on the compressor will be avoid by

a waiting period of at least 3 minutes before
starting the unit.

Prior to longer operating breaks or pauses:

1. Remove the mains plug from the plug socket (or
transitional socket).

2. Empty the condensate container and dry it with a
clean cloth.

3. Make sure that no condensate continues to drop or
drip!

4. Clean the dust filter according to the given instruc­tions.

5. Protect the unit, possibly with a plastic cover, and
store it in a vertical position in a safe place.

Maintenance and Service

Regular care and the observation of a number of basic
rules will ensure the dehumidifier’s long life and reliable
operation.

The complete cooling system is hermetically sealed and
contains no user-serviceable parts. It may only be serv­iced by authorised repair facilities.

All moving parts feature low-maintenance long-life lubri­cation.

The unit should be inspected and cleaned thoroughly
after each long period of operation, at a minimum once
a year.

Please note the following points:
◊ Ensure that the interior and exterior of the unit re-

mains free of dust and other deposits.

◊ Clean the unit only with a dry or dampened cloth.
◊ Do not use a water jet.
◊ Do not use aggressive cleansers or cleaning prod-

ucts containing solvents.

◊ Regularly check the dust filter and the exhaust grille

for soiling and clean them as required.

◊ Replace the dust filter as required.

Dust Filter Cleaning

◊ Lift the air suction grille slightly and remove it pulling

towards and downwards.

◊ Then remove the dust filter.
◊ Slight o insignificant dirt is to be cleaned by blowing

out or vacuum-cleaning the dust filter carefully.

◊ If the dust filter is very dirty it is to be washed with a

lukewarm soap solution (max. 40° C) and then to be
rinsed with clear water.

◊ Make sure that the dust filter is completely dry and

undamaged before you reinstall it.

◊ In case of extreme dirt the dust filter is to be replace.
◊ Never use the unit without installed dust filter!

Transport Instructions

The unit is equipped with 2 wheels and an easily remov­able transport handle to ensure safe transport.

1. Switch off the unit prior to changing its place and to
remove the mains plug from the mains socket.

2. After that empty the condensate container.

3. Make sure to transport and store the unit only in a
vertical position as long as there is still humidity at
the evaporator, in the condensate trap and in the
condensate container.

Do not use the cable to pull the unit!

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Works at refrigerating plant and at electrical equip­ment is to be carried out only by an especially

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authorised service company!

9

Condenser and Evaporator Cleaning
Dismount the casing of the unit before cleaning up the

condenser and evaporator. The following maintenance
have to be carried out only by an especially authorised
service company!

Make sure to remove the mains plug from the plug
socket before you carry out any of the described

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measures or work!

A

C

B

Clean the unit like the following description:

1. Remove the mains plug from the mains socket.

2. Remove the transport strap A and the
stand strap B.

3. Remove the side-plates C.

4. The lamellas of the condenser are either to be
blown out, to be vacuum-cleaned or to be cleaned
with a soft brush.

5. Please clean the condensator very carefully - the
fine aluminium lamellas can be easily deformed!

Sharp-edged lamellas survives injury-danger !

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6. Do not clean with a water jet.

7. Clean evaporator lamellas with a lukewarm soap
solution.

8. Rinse with clean water to remove any remaining
soap residues.

9. Clean carefully the inner or internal surfaces of the
unit as well as the fan wing.

10. After that, dry with a clean cloth.

11. Mount all the parts in the reverse order.

12. Test the functions of the unit and perform an electri­cal safety check!

In Case of Troubles

This unit has been designed based on state of the art
manufacturing methods and it has been tested repeat­edly as to its perfect function.

However, if there are any operating troubles check the
unit according to the following listing:

The unit does not start:

◊ Control or check operating switch.

Green control lamp “operation” must lit.

◊ Check mains plugs.
◊ Check connection to the mains.

230V/1~ 50 Hz.

◊ Check mains fuse at user.

10 A resp. 16 A.

◊ Check filling level of the condensate tank and pour

out the condensate if necessary.

◊ Check the position of the condensate tank and the

cover lock have to be closed correctly.

◊ Check micro switch function.
◊ Control hygrostat setting (accessory). The set value

must be lower than the relative air humidity in the
room where the unit has been installed.

◊ Check intermediate plug of hygrostat to see whether

it has been damaged and whether it has been cor­rectly plugged in.

Unit runs, but no condensate formation:
◊ Control ambient temperature. Unit operates within a

temperature range from 3° C to 32° C.

◊ Control air humidity.

Min. 40% relative humidity.

◊ Check hygrostat setting and set a lower value, if nec-

essary.

◊ Check whether dust filter is dirty, if so, clean it.
◊ Check whether the evaporator and condenser lamel-

las are dirty and clean them, if necessary.

◊ The evaporator is covered with ice. Check whether

automatic defrosting device operates correctly, or
check ambient temperature.

◊ Evaporator temperature is not lower than the room

temperature. Control automatic defrosting device
and compressor, respectively.

Out of the unit runs water / condensate:

◊ Check if the unit stands straightly.
◊ Check if the black filler cap is in the hose nipple of

the tank after the unit was work with hose connection
and/or after you have cleaned the unit.

If the unit does not work correctly in spite of the
controls or checks inform an authorised service

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company.

10

Technical Data

Model
Working range - temperature °C 3 - 32

Working range - humidity % r. h. 40 - 100
Dehumidifying capacity, max. l/day 55
Dehumidifying capacity at 30°C / 80% r. h. l/day 50,08
Dehumidifying capacity at 20°C / 70% r. h. l/day 28,59
Dehumidifying capacity at 10°C / 60% r. h. l/day 6,95
Capacity water container litres 6,5

Cooling capacity at 5°C tv / 45°C tk
Air volume m³/h 600
Refrigerant (FCKW –free) R 407 C
Refrigerant quantity g 260
Power supply 1~ V / Hz ~230 / 50
Rated current consumption, max. A 3,8
Power consumption, max. kW 0,82
Power consumption at 20°C / 70% r. h. kW 0,60
Fuse protection (required) A 16
Sound pressure level L

pA 1m

1)

dB (A) 59

Dimensions total depth mm
total width mm 555
total height mm
Weight kg 41

AMT 30

AMT 50

3 - 32

40 - 100

30
26,2
13,7

5,4
6,5

kW 2,1

1,29

350

R134a

260

~230 / 50

3,3
0,65
0,45

10 - 16

48

590 (465)2)

590 (480)2)

540

900 (620)2)

900 (710)2)

35,5

1) Noise measuring DIN 45635 - 13 - KL 3

2) Dimensions without transport handle

Wiring Diagram

Comp. A

Comp. B

H1 = Control lamp, yellow (tank full)
H2 = Control lamp, green (operation)
K1 = Time relay (t = 30 min / Pos. max.)
M1 = Compressor
M2 = Fan motor
P1 = Running hour meter
S1 = Main switch
S2 = Micro switch
S3 = Defrosting thermostat
Y1 = Solenoid valve
Comp. A = Wiring Diagram AMT 30
Comp. B = Wiring Diagram AMT 50

Any mode of operation other than specified in these operating instructions is not permissible!

Failing to observe it causes the customer to lose all rights to guarantee or damage claims.

Any claims under guarantee regarding materials can be accepted only when the orderer or his customer has

filled in completely the “guarantee certificate” which is enclosed with every REMKO-device and has

returned it to REMKO GmbH & Co. KG in due time after the unit’s sale and commissioning.

11

Exploded View AMT 30

08/

0

2

1 2 3 4

5

6 7 8

56

47 48 55 49 9 50

45 46

43
44

42

27

27

26

41

28

40

15 16 17

18

19

20

25

29

30

35

36
37
38

We reserve the right to make modifications in dimensions and construction in the interests of technical progress.

12

Spare Part List AMT 30

No. Designation Ref.-No.

1 air suction grille 1104487
2 dust filter 1104486
3 housing 1104551
4 side plate, right 1104552
5 transport strap 1104553
6 control lamp, yellow 1105512
7 control lamp, green 1105514
8 main switch 1102248
9 heat-exchanger-package, cpl. 1104464
15 fan blade 1104465
16 clutch plate 1108014
17 fan motor 1104466
18 motor fixture 1104554
19 time relay 1104467
20 connector, relay 1104468
25 Compressor, clp. 1104469
26 solenoid valve 1104470
27 defrosting thermostat incl. sensor 1104471
28 micro switch 1104472
29 electric cable 1101320
30 cable relief 1104562
35 axle 1104474
36 wheel 1102155
37 wheel lock ring 1101622
38 wheel cap 1101623
40 starting spool 1104475
41 starting capacitor 1104476
42 main frame, clp. 1104555
43 stand strap 1104556
44 rubber stopper 1104479
45 condensat tank, clp. 1104480
46 filler cap 1104481
47 locking mechanism for lock cover 1104482
48 lock cover 1104491
49 floater 1104484
50 liquid line dryer 1104485
55 side plate, left 1104557
56 hour counter 1105515

When ordering spare parts please indicate ref.-no. and machine no. (see type plate)!

13

Exploded View AMT 50

14

We reserve the right to make modifications in dimensions and construction in the interests of technical progress.

Spare Part List AMT 50

No. Designation Ref.-No.

1 air suction grille 1104501
2 dust filter 1104500
3 housing 1104502
4 side plate, right 1104503
5 transport strap 1104504
6 control lamp, yellow 1105512
7 control lamp, green 1105514
8 main switch 1102248
9 heat-exchanger-package, cpl. 1104505
10 fan blade 1104506
11 clutch plate 1108014
12 fan motor 1104507
13 time relay 1104467
14 connector, relay 1104468
15 compressor 1104508
16 solenoid valve 1104470
17 defrosting thermostat incl. sensor 1104471
18 micro switch 1104472
19 electric cable 1101320
20 cable relief 1104473
21 axle 1104509
22 wheel 1102155
23 wheel lock ring 1101622
24 wheel cap 1101623
25 motor fixture 1104510
26 starting capacitor 1104511
27 main frame, clp. 1104512
28 stand strap 1104516
29 rubber stopper 1104479
30 condensat tank, clp. 1104480
31 filler cap 1104481
32 locking mechanism for lock cover 1104482
33 lock cover 1104513
34 floater 1104484
35 liquid line dryer 1104485
36 side plate, left 1104514
37 hour counter 1105515

not shown clamp for sensor, defrosting thermostat 1104515

When ordering spare parts please indicate ref.-no. and machine no. (see type plate)!

15

REMKO GmbH & Co. KG

Klima- und Wärmetechnik
D-32791 Lage • Im Seelenkamp 12

D-32777 Lage • PO Box 1827
Phone +49 (5232) 606 - 0
Fax +49 (5232) 606260