Dražice OKC 500 NTR/1MPa, OKC 300 NTRR/1MPa, OKC 400 NTRR/1MPa, OKC 400 NTR/1MPa, OKC 500 NTRR/1MPa Operation And Installation Manual

OPERATION AND

INSTALLATION MANUAL

INDIRECT WATER HEATERS

OKC 300 NTR/1MPa OKC 300 NTRR/1MPa

OKC 400 NTR/1MPa OKC 400 NTRR/1MPa
OKC 500 NTR/1MPa OKC 500 NTRR/1MPa
OKC 750 NTR/1MPa OKC 750 NTRR/1MPa
OKC 1000 NTR/1MPa OKC 1000 NTRR/1MPa

Družstevní závody Dražice - strojírna s.r.o.

Dražice 69, 294 71 Benátky nad Jizerou
tel.: +420 / 326 370 990
fax: +420 / 326 370 980
e-mail: prodej@dzd.cz

- 2 -

CONTENT

1 TECHNICAL SPECIFICATION OF PRODUCT ................................................................................................. 4

1.1 FUNCTION DESCRIPTION ................................................................................................................... 4

1.2 PRODUCT DESCRIPTION .................................................................................................................... 4

1.3 TECHNICAL PARAMETERS .................................................................................................................. 5

1.3.1 TECHNICAL PARAMETERS OF HEATERS WITH ONE EXCHANGER .............................................. 5

1.3.2 TECHNICAL PARAMETERS OF HEATERS WITH TWO EXCHANGERS ........................................... 6

1.3.3 PERFORMANCE DATA ................................................................................................................ 7

1.3.4 PRESSURE LOSSES ...................................................................................................................... 9

1.4 CONSTRUCTION AND GENERAL HEATER DIMENSIONS ................................................................... 10

2 OPERATION AND FITTING INSTRUCTION ................................................................................................. 15

2.1 OPERATING CONDITIONS ................................................................................................................ 15

2.2 CONNECTING A HEATER TO A HOT WATER DISTRIBUTION ............................................................ 15

2.3 PLUMBING FIXTURE ......................................................................................................................... 16

2.4 CONNECTING A HEATER TO A HEATING SYSTEM ............................................................................ 17

2.5 PUTTING THE HEATER INTO OPERATION ........................................................................................ 18

2.6 PUTTING OUT OF SERVICE, DISCHARGE .......................................................................................... 19

2.7 INSPECTION, MAINTENANCE & CARE FOR THE APPLIANCE ............................................................ 20

2.8 SPARE PARTS.................................................................................................................................... 21

3 IMPORTANT NOTICES .............................................................................................................................. 21

3.1

INSTALLATION REGULATIONS.......................................................................................................... 21

3.2 DISPOSAL OF PACKAGING MATERIAL AND FUNCTIONLESS PRODUCT ........................................... 22

4 ASSEMBLY GUIDE FOR ZIP-FASTENER INSULATION (FOR 750 AND 1000 LITRES) ................................... 23

- 3 -

Meaning of pictograms used in Manual

Important information for heater users.

Recommendations of manufacturer, observance of which will ensure trouble-free

operation and long service life of the product.

CAUTION!

Important notice to be observed.

READ CAREFULLY THE BELOW INSTRUCTIONS PRIOR TO THE INSTALLATION

THE HEATER!

Dear Customer,

The Works Cooperative of Dražice – Machine Plant, Ltd., would

like to thank you for your decision to use a product of our

brand. With this guide, we will introduce you to the use,
construction, maintenance and other information on electrical
water heaters.

The manufacturer reserves the right for engineering modification of the product. The product is designed

for permanent contact with drinkable water.

It is recommended to use the product in indoor environment with air temperatures from +2°C to 45°C
and a relative humidity up to 80%.

Product’s reliability and safety is proven by tests implemented by the Engineering Test Institute in Brno.

- 4 -

1 TECHNICAL SPECIFICATION OF PRODUCT

1.1 FUNCTION DESCRIPTION

Indirect stationary heaters lines NTR and NTRR are used for water heating in conjunction with another
source of heating water, most often a gas boiler. The NTRR types combine two sources of heating water
(gas boiler + a solar system or a heat pump). Their nominal performance provides sufficient amount of hot
water for large flat units, premises, restaurants, and similar establishments.

In case of increased hot water consumption, these tanks heat water continuously, operating similarly to
flow heaters.

1.2 PRODUCT DESCRIPTION

The heater tank is welded from a steel sheet; it is entirely coated with hot water resistant enamel.
Magnesium anode is added in the vessel as an additional protection against corrosion, which regulates the
electric potential of the inside of the vessel and thus reduces the effects of corrosion. Inside the tank, hot
and cold water and circulation pipes; a thermostat well; and either one or two spiral steel pipe heat
exchangers (enamelled on the outside) are all welded on.

The pipe heat exchanger is only intended for the heating circuit.

On the heater side, there is a cleaning and revision opening ending with a 110 mm flange; the clearance
including eight M8 bolts is 150 mm – 300 to 500 litres, for 180 mm clearance the spacing of ten bolts is 225
mm – 750 to 1000 litres. A heating unit with various output containing an operating and safety thermostat
can be mounted in the opening. The NTR series heaters are equipped with a G 1 1/2“ aperture for in­screwing an additional heating element. Such version is used when the heater is connected to either a solar
system or a system with a heat pump, to heat water in the upper part of the heater to the temperature
required. The tank is insulated with 50-80 mm of polyurethane freon-free foam. The tank shell is made of a
steel sheet painted with a powder coating (the 400-500 l types only, other are in plastic), and the
connecting parts are metal-coated.

- 5 -

1.3 TECHNICAL PARAMETERS

1.3.1 TECHNICAL PARAMETERS OF HEATERS WITH ONE EXCHANGER

TYPE

OKC 300

NTR/1MPa

OKC 400

NTR/1MPa

OKC 500

NTR/1MPa

OKC 750

NTR/1MPa

OKC 1000

NTR/1MPa

Tank capacity

l

300

385

485

750

975

Diameter

mm

670

700

700

910

1010

Weight

kg

108

123

173

253

337

Operating hot service

water pressure

MPa 1 1 1 1 1

Operating heating

water pressure

MPa 1,6 1,6 1,6 1,6 1,6

Max temperature of

heating water

°C 110 110 110 110 110

Max temperature of

hot service water

°C 95 95 95 95 95

Exchanger heat

surface

m2 1,5 1,8 1,9 3,7 4,5

Exchanger

performance at
temperature drop
80/60 °C

kW 35 57 65 99 110

Performance number

according to DIN 4708

NL 8 15,2 19,1 30,5 38,8

Permanent HSW*

performance

l/h 1100 1395 1590 2440 2715

HSW* heating time

by exchanger at
temperature drop
80/60 °C

min 24 20 23 24 26

* HSW – Hot service water 45 °C

Table 1

- 6 -

1.3.2 TECHNICAL PARAMETERS OF HEATERS WITH TWO EXCHANGERS

TYPE

OKC 300

NTRR/1MPa

OKC 400

NTRR/1MPa

OKC 500

NTRR/1MPa

OKC 750

NTRR/1MPa

OKC 1000

NTRR/1MPa

Tank capacity

l

295

380

470

750

995

Diameter

mm

670

700

700

910

1010

Weight

kg

124

144

183

245

315

Operating hot service

water pressure

MPa 1 1 1 1 1

Operating heating

water pressure

MPa 1,6 1,6 1,6 1,6 1,6

Max temperature of

heating water

°C 110 110 110 110 110

Max temperature of

hot service water

°C 95 95 95 95 95

Upper exchanger

heat surface

m2 1 1,05 1,3 1,17 1,12

Lower exchanger

heat surface

m2 1,5 1,8 1,9 1,93 2,45

Lower/upper

exchanger
performance at
temperature drop
80/60 °C

kW 35/27 57/31 65/40 60/33 76/32

Performance number

according to DIN
4708 upper
exchanger

NL 2,9 3,4 5,9 6,2 7,1

Performance number

according to DIN
4708 lower
exchanger

NL 4,2 15,2 19,1 21 26

Permanent HSW

performance* of
lower exchanger

l/h 1100 1395 1590 1460 1490

Permanent HSW

performance* of
upper exchanger

l/h 670 740 970 815 780

HSW* heating time by
exchanger at
temperature drop
80/60 °C

(lower/upper)

min 24/16 20/14 23/16 37/28 43/37

*HSW – Hot service water 45 °C

Table 2

- 7 -

cwt = 10°C

cwt =10°C hwt = 45°C

mth= 50°C mth = 60°C mth = 50°C mth = 60°C

UE LE UE LE
°C - - - - l/h kW l/h kW l/h kW l/h kW l/10min l/10min m3/h
50 1,1 1,8 - - 431 17,1 259 10,4 - - - - 111 ­60 1,3 2,2 1,6 2,6 594 24 348 14,1 446 18 261 10,6 127 152
70 1,7 2,7 2 3,3 818 33,6 468 19,1 614 25,2 351 14,3 145 174
80 2,1 3,4 2,5 4,1 1086 44,2 629 25,9 815 33,2 472 19,4 166 199
90 2,7 4,4 3,2 5,3 1299 52,6 757 30,6 974 39,5 568 23 161 217
50 3,2 5,3 - - 493 19,6 305 12,2 - - - - 221 -

60 3,7 6 4,4 7,2 679 27,4 410 16,6 509 20,6 308 12,4 243 292
70 4,2 6,9 5 8,2 935 38,4 551 22,5 701 28,8 413 16,9 268 321
80 4,8 7,8 5,7 9,4 1241 50,5 740 30,5 931 37,9 555 22,9 294 353
90 5,8 9,6 7 11,5 1485 60,1 891 26 1114 45,1 668 19,5 316 379
50 3,8 6,2 - - 583 23,5 395 15,9 - - - - 332 ­60 4,7 7,8 5,7 9,3 790 32 531 21,5 593 24 399 16,1 360 432

70 5,9 9,7 7,1 11,7 1070 43,5 715 29,2 803 32,6 536 21,9 390 468
80 7,4 12,2 8,9 14,7 1430 58 962 39,6 1073 43,5 722 29,7 423 507

90 9 14,8 10,8 17,8 1720 70 1157 46,8 1290 52,5 868 35,1 450 540

2,7/2,7

3,0/3,0

3,0/3,0

Heating

water flow

Flow in 10 minutes

NL Power Factor

at

Permanent hot water output

Inlet

heating

water

temperatu

re

Type

LE

UE

OKC 300 NTRR/1MP a

OKC 400 NTRR/1MP a

OKC 500 NTRR/1MP a

cwt = 10°C

hwt = 45°C

hwt = 60°C

LE

UE

hwt = 45°C

cwt = 10°C

hwt = 45°C cwt =10°C hwt = 45°C

mth = 50°C mth = 60°C mth = 50°C mth = 60°C

°C - - l/h kW l/h kW l/10min l/10min m3/h
60 4,3 - 617 25,1 - - 290 ­70 5,3 8,4 888 36,1 622 26,8 322 403
80 5,3 8,4 1100 47,4 816 39,8 358 448
90 5,3 8,4 1451 59 1015 52,5 398 497
60 6,8 - 738 29,9 - - 399 ­70 10,1 12,8 990 43,2 745 32,1 443 554
80 10,1 15,2 1394 56,7 976 47,6 492 615
90 10,1 15,2 1733 70,4 1212 62,7 547 684
60 11,3 - 842 34,2 - - 500 ­70 15,2 15,8 1210 49,2 847 36,7 556 694
80 15,2 19,1 1584 64,4 1109 54,2 617 771
90 15,2 19,1 1965 79,9 1376 71,2 686 858
60 12,9 - 1279 52 - - 817 -

70 15,4 25,6 1828 74 1364 56 848 1060
80 18,3 30,5 2437 99 2065 84 880 1100

90 21 35 3046 124 2719 111 928 1160
60 16,6 - 1424 58 - - 862 -

70 19,7 32,8 2034 83 1518 62 908 1135
80 23,3 38,8 2712 110 2298 94 957 1197
90 27 45 3390 138 3026 123 1003 1254

OKC 400 NTR/1MPa

OKC 500 NTR/1MPa

OKC 750 NTR/1MPa

OKC 1000 NTR/1MPa

Type

OKC 300 NTR/1MPa

Inlet

heating

water

temperatur

e

NL Pow er Factor

at

Permanent hot water output

Flow in 10 minutes

Heating

water flow

hwt = 45°C

hwt = 60°C

cwt = 10°C

3

5

6

2,7

3

1.3.3 PERFORMANCE DATA

Table 3

UE – upper exchanger

LE– lower exchanger

cwt – cold water temperature

hwt – hot water temperature
mth – medium temperature of the

heater

Table 4

UE – upper exchanger

LE – lower exchanger

cwt – cold water temperature

hwt – hot water temperature
mth – medium temperature of the

heater

- 8 -

NL Power Factor

Based on DIN, the expression of a normal flat is introduced for apartment houses in the FRG. Such a flat has
four rooms; it is occupied by 3.5 people; it has a bathtub, a hand basin, and a sink. Flats of other sizes,
number of occupants and different equipment are converted to normal flats using the relations given in the
standard (NL). The situation in our apartment houses, massively built until the recent past, is similar.

Flats intended for 3 to 4 people are equipped identically with normal German flats. Smaller flats tend to
have smaller bathtub or a shower; larger, so-called two-generation flats tend to have an extra hand basin.
Apartment buildings with luxury flats and high standard equipment, with higher number of fittings, or
fittings equipped with high standard drain armatures, both hot water and heat energy needs must be
adjusted.

- 9 -

1.3.4 PRESSURE LOSSES

- 10 -

1.4 CONSTRUCTION AND GENERAL HEATER DIMENSIONS

OKC 300 NTR/1MPa

Figure 1

OKC 300 NTRR/1MPa

Figure 2

- 11 -

OKC 400 NTR/1MPa, OKC 500 NTR/1MPa

Figure 3

OKC 400 NTR

/1MPa

OKC 500 NTR

/1MPa

A

1591

1921
B 1523 1853
C 1111 1264

D1

597 597

D2 700 700

E 909 965
F

684 695
G 957 1040
H 369 388

- 12 -

OKC 400 NTRR/1MPa, OKC 500 NTRR/1MPa

Figure 4

OKC 400 NTRR

/1MPa

OKC 500 NTRR

/1MPa

A 1631

1961

B

957 1040

C 275

275

D1

597 597

D2 700

700

E 1523 1853

F 1354 1604

G 1223 1409

H 1111 1264

I 1006 1114

J 909 965

K 369 380

L 220 220

M 55 55

N 25 25

- 13 -

OKC 750 NTR/1MPa, OKC 1000 NTR/1MPa

Figure 5

OKC 750 NTR/

1MPa

OKC 1000 NTR

/1MPa

A 1998 2025

B 1887 1905

C 1417 1490

D1 750 850

D2 910 1010

E 1314 1324

F 1079 1087

G 288 295

H 99 103

I 1643 1672

J 1005 1025

K 375 385

- 14 -

OKC 750 NTRR/1MPa, OKC 1000 NTRR/1MPa

Figure 6

OKC 750 NTRR/

1MPa

OKC 1000 NTRR/

1MPa

A 1998

2025

B

1005

1025

C 378 387

D1 750 850

D2 910

1010

E

1887 1905

F 1467

1423

G

1375 1375

H 1242 1243

I

1151 1153

J 830 884

K 402 411

L 297 297

M 99 103

N 55 45

O

1643 1672

- 15 -

Hot water outlet

Circulation

Heating water inlet

Thermostat chamber

Heating water outlet

Cold water i nlet

Hot water outlet
Heating water inlet
Thermostat chamber
Circulation
Heating water outlet
Heating water inlet

Thermostat chamber
Heating water outlet
Cold water i nlet

2 OPERATION AND FITTING INSTRUCTION

2.1 OPERATING CONDITIONS

The tank shall only be used in accordance with the conditions specified on the power plate

and in instructions for electric wiring. Besides legally acknowledged national regulations and
standards, also conditions for connection defined in local electric and water works have to
be adhered to, as well as the installation and operation manual.

The temperature at the place of heater installation must be higher than +2°C; and the room
must not freeze. The appliance has to be mounted at a convenient place; it means that the
appliance must be easily available for potential necessary maintenance, repair or
replacement, as the case may be.

2.2 CONNECTING A HEATER TO A HOT WATER DISTRIBUTION

Scheme of heater´s water inputs and outputs

OKC 300 NTR/1MPa, OKC 400 NTR/1MPa, OKC 300 NTRR/1MPa, OKC 400 NTRR/1MPa,
OKC 500 NTR/1MPa OKC 500 NTRR/1MPa,
OKC 750 NTR/1MPa, OKC 1000 NTR/1MPa OKC 750 NTRR/1MPa, OKC 1000 NTRR/1MPa

Figure 7

The heater’s cold water inlet must be fitted with T-fittings with a discharge valve for any

discharge of water from the heater.

On the hot water input, each individually closable heater must have a test cock,

backflow valve, safety valve, and a manometer.

- 16 -

2.3 PLUMBING FIXTURE

Each hot service water pressure heater must have a membrane spring loaded with a safety

valve. Nominal clearance of safety valves is defined by standard. The safety valve must be
easily accessible, as close to the heater as possible. The inlet pipes must have at least the
same clearance as the safety valve. The safety valve is placed high enough to secure dripping
water drain by gravity. We recommend mounting the safety valve onto a branch pipe. This
allows easier exchange without having to drain the water from the heater. Safety valves with
fixed pressure settings from the manufacturer are used for the assembly. Starting pressure
of a safety valve must be identical to the maximum allowed heater pressure and at least 20
% higher than the maximum pressure in the water main (

Table 5). If the water main pressure
exceeds such value, a reduction valve must be added to the system. . No stop valves can be
put between the heater and the safety valve. During the assembly, follow the guide provided
by the safety equipment manufacturer.

It is necessary to check the safety valve each time before putting it into operation. It is

checked by manual moving of the membrane from the seat, turning the make-and-break
device button always in the direction of the arrow. After being turned, the button must click
back into a notch. Proper function of the make-and-break device results in water draining
through the safety valve outlet pipe. In common operation, such a check needs to be
implemented at least once a month, and after each heater shutdown for more than 5 days.
Water may be dripping off the drain pipe of the safety valve; the pipe must be open into the
air, pointed down; environment temperatures must not drop below zero. When draining the
heater, use the recommended drain valve. First, close the water supply into the heater.

Please find necessary pressure values in the below Table 5. For proper safety valve operation, a backflow
valve must be mounted on the inlets pipes, preventing spontaneous heater draining and hot water
penetrating back into the water main. We recommend that the hot water distribution from the heater was
as short as possible to minimise heat losses. At least one demountable joint must be mounted between the
tank and every supply pipe. Adequate piping and fittings with sufficiently dimensioned maximum
temperature and pressure values must be used.

SAFETY VALVE

OPERATING

PRESSURE

[MPa]

ADMISSIBLE

OPERATING

WATER

HEATER

PRESSURE

[MPa]

MAX

PRESSURE IN

THE COLD

WATER PIPE

[MPa]

0,6

0,6

up to 0,48

0,7

0,7

up to 0,56

1

1

up to 0,8

Table 5

- 17 -

2.4 CONNECTING A HEATER TO A HEATING SYSTEM

The heater is placed on the ground, next to the heating source, or in its vicinity. The heating circuit is
connected to marked inputs and outputs of the heater exchanger; deaerating valve is mounted in the
highest place. It is necessary to install a filter into the circuit in order to protect the pumps, the three-way
valve, and backflow flaps, and the exchanger from sedimentation. It is recommended to flush the heating
circuit before the assembly. All wiring connections must be properly insulated from heat. Should the
system work with priority heating of hot service water using a three-way valve, always follow the
installation instructions of the three-way valve’s manufacturer.

OKC 300-1000 NTR OKC 300-1000 NTRR

heated by a gas boiler with two pumps heated by a gas boiler and solar collectors
controlled by a three-way valve

Figure 8 Figure 9

- 18 -

An example of a group heater connection for steady hot service water consumption from all
tanks using Tichelmann´s method

Figure 10

2.5 PUTTING THE HEATER INTO OPERATION

Before opening the power supply, the tank must be filled with water. The process of first

heating must be executed by licensed professional who has to check it. Both the hot water
outlet pipe and safety armature parts may be hot.

During the heating process the pressurised connection water that increases its volume due

to heating must drip off the safety valve. In non-pressurised connection water drips off the
overflow combination faucet. When heating is finished, the set temperature and the actual
temperature of consumed water should be roughly equal. After connecting the heater to the
water main and electrical power system, and after checking the safety valve (following the
instructions attached to the valve), the heater can be put into operation.

Before fist putting into service or after a longer shutdown the appliance has to be rinsed out
and flushed yet before heating is activated. Before heating starts, the tank must be

completely filled with water and the system properly flushed and vented. First heating of the

tank has to be watched.

C - Circulation

1 – Back-pressure valve

2 - Pump

- 19 -

Procedure:

1. Check both water and electric installation; for combined heaters, check the installation to a hot

water heating system. Check proper placement of operating and safety thermostat sensors. The
sensors must be inserted all the way in; first the operating and then the safety thermostat.

2. Open the hot water valve on the combination faucet.

3. Open the cold water inlet valve to the heater.

4. As soon as the water starts running through the hot water valve, the heater is filled and the valve

closes.

5. In case of a leakage (flange lid), we recommend fastening the flange lid bolts.

6. Fasten the electric installation cover.

7. In case of service water heating by electric energy, turn on the electricity (for combined heaters,

the heating water valve at the heating water entry to heating insert must be closed).

8. When heating service water with electric energy from the hot water heating system, turn the

electricity off and open the valves of heating water input and output, possibly de-aerate the
exchanger.

9. When commencing operation, flush the heater until the cloudiness in the water is gone.

10. Make sure to fill in properly the warranty certificate.

2.6 PUTTING OUT OF SERVICE, DISCHARGE

If the hot water heater is put out of service for a longer time, or if it is not going to be used it

has to be drained and disconnected from the electric supply network on all poles. The switch
for the supply lead or the fuse cut-outs have to be shut off.

At places with permanent risk of frost the hot water heater must be drained before the cold
season starts if the appliance remains out of service for several days and if the power supply
is disconnected.

Drainage of service water shall be performed after closing the shut-off valve in the cold

water supply piping (through the discharge valve for safety valve combination), and with

simultaneous opening of all hot water valves of connected fittings (water can be also drained

through safety valve; for that purpose, the safety valve is turned to the "Check" position).
Hot water may outflow during the drainage! If there is a risk of frost it has to be considered
that not only the water in the hot water heater and in the hot water piping may get frozen
but also the water in the entire cold water supply piping. It is therefore advisable to drain all
fittings and piping that carry water, up to the part where the house water meter is installed
(connection of the house to water main) which is not jeopardised by frost. When the tank is
put in service again, it has to be ensured that it is filled with water and the water flowing

out at the hot water valves is free of bubbles.

- 20 -

2.7 INSPECTION, MAINTENANCE & CARE FOR THE APPLIANCE

During the heating process the water that increases its volume during the heating must

visibly drip off the safety valve outlet (in non-pressurised connection this water drips off the
combination faucet valve). In full heating (about 74°C) the volumetric water gain is approx.

3.5 % of the tank capacity. The function of the safety valve has to be checked regularly. If the
safety valve control knob is lifted or turned to the “Control” position, the water must flow
out easily, without any obstacles, from the safety valve element to the outfall line. In
common operation, such a check needs to be carried out at least once a month, and after
each heater shutdown that exceeds 5 days.

Caution! In doing so, the cold water supply pipe and the connection fitting of the tank may
get heated! If the hot water heater does not work, or if hot water is not withdrawn, no
water shall drip off the safety valve. If water drips, then the water pressure in the supply
piping is either too high (if higher than 5.5 bars, a pressure control valve has to be fitted), or
the safety valve is defective. Please call a specialised plumber immediately!

If water contains too many minerals, an expert has to come to remove the scale that forms

inside the tank, as well as free sediments. This has to be performed after one or two years of
operation. The cleaning is carried out through the hole in the flange – dismantle the flange
lid and clean the tank. A new sealing has to be used for re-fitting. Since the inside of the
heater has special enamel, which must not get in contact with the scale removing agent – do

not work with a lime pump. Remove the lime layer with a timber and suck it off, or wipe it off

with a clout. After that, the appliance must be rinsed thoroughly and the heating process is
checked the same as during the initial putting in operation. Do not use any abrasive cleaning
agents (such as liquid sand, chemicals - acid, alkaline) or dye thinners (such as cellulose
thinner, trichlor, and the like) to clean the outer shell of the heater. For cleaning use a wet
clout and add a few drops of liquid cleaning agent for household applications. Repetitive
water heating causes limestone sediment on both the tank walls and chiefly the flange lid.
The sedimentation depends on the hardness of water heated, its temperature, and amount
of hot water consumed.

We recommend checking and cleaning the tank from scale and eventual replacement of
the anode rod after two years of operation. The anode life is theoretically calculated for two

years of operation; however, it changes with water hardness and chemical composition in
the place of use. Based on such an inspection, the next term of anode rod exchange may be
determined. If the anode is only blocked with sediments clean its surface and, if used up,
mount a new one. Have the company in charge of service affairs clean and exchange the
anode. When draining water from the heater, the combination faucet valve for hot water
must be open, preventing occurrence of under-pressure in the heater tank which would stop
water from draining.

- 21 -

2.8 SPARE PARTS

- Magnesium anode

- Contact thermometer

When ordering spare parts, give part name, type, and type number from the heater label.

3 IMPORTANT NOTICES

3.1 INSTALLATION REGULATIONS

- Without a confirmation of performed electrical installation issued by an authorised

company, the warranty certificate shall be void.

- Check and exchange the Mg anode regularly.

- No stop valves can be put between the heater and the safety valve.

- All hot water outputs must have a combination faucet.

- Before filling the heater with water for the first time, it is recommended to fasten the flange

connection nuts of the tank.

- It is not allowed to handle the thermostat, aside from temperature resetting with a control

button.

- All electric installation handling, adjustment and replacement of the regulation elements shall

only be performed by an authorised service company.

- The thermal fuse must not be turned off! In case of thermostat defect, the thermal fuse

interrupts electric power input to the heating element if the water temperature in the heater
exceeds 90°C.

- As an exception, the thermal fuse may also switch off due to water overheating caused by

overheating the hot water heating system boiler.

- We recommend you operate the heater with one type of energy. In the case of instalation of

solar system to lower heat exchanger, is possible to heat up upper part of the water heater
with use of electric heating device TJ, installed to 6/4 " socket approximately in height center
of wessel.

Do not try to repair the failure yourselves. Seek either expert or service help. It does not

take much for an expert to remove the defect. When making a repair appointment, report
the type and serial number you find on the performance plate of your water heater.

To prevent formation of bacteria (e.g. Legionella pneumophila) within stack heating it is

recommended, if absolutely necessary, to increase the temperature of HSW periodically for
a transitional period of time to at least 70°C. It is also possible to make use of another way
of HSW disinfecting.

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Both the electric and water installation must follow and meet the requirements and

regulations relevant in the country of use!

3.2 DISPOSAL OF PACKAGING MATERIAL AND FUNCTIONLESS

PRODUCT

A service fee for providing return and recovery of packaging material has

been paid for the packaging in which the water heater was delivered. The
service fee was paid pursuant to Act No. 477/2001 Coll., as amended, at EKO­KOM a.s. The client number of the company is F06020274. Take the water
boiler packages to a waste disposal place determined by the town. When the
operation terminates, disassemble and transport the discarded and
unserviceable heater to a waste recycling centre (collecting yard), or contact
the manufacturer.

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4 ASSEMBLY GUIDE FOR ZIP-FASTENER

INSULATION (FOR 750 AND 1000 LITRES)

Two people are enough to implement the assembly; three people are required for larger boilers; the
assembly must be implemented in areas with the temperature of at least 18

o

C.

If the insulation includes tank bottom insulation, the latter must be mounted first. Consequently, the
insulation is inserted around the boiler; pre-pressed insulation openings must be respected.

By slight pull in the direction of the arrows, pull both sides of the zip-fastener insulation so that (Figure 11)
the insulation does not slide and the insulation holes sit on the boiler inlets and outlets

It must be secured that before closing; both halves of the zip-fastener were not further 20 mm
(Figure 12). No foam shall get into the zip-fastener on closing.

After the insulation coat is properly mounted and the zip closure closed properly, insert the top lid made of
foam material and cover it with either a foil cover or a plastic lid. It is also possible to glue the outlet caps to
connection places (Figure 13). The insulation may only be stored in dry storage places.

We take no responsibility for damages caused by not respecting this guide.

Figure 11 Figure 12 Figure 13

14-7-2015