SERO | AWA-SS-16 | User manual | SERO AWA-SS-16 User manual

SERO AWA-SS-16 User manual
USER MANUAL
AIR SOURCE HEAT PUMP
MODEL:
AWA-SS-6
AWA-SS-8
AWA-SS-8
AWA-SS-10
AWA-SS-12 AWA-SS-16
- ALL IN ONE-
(230V/50H Z )
(3x400V/3/50H Z )
-Please read this operating manual before using the Heap Pump- TYDP
List of contents
1
Important Information……………………………………………………..3
1.1
1.1.1
1.1.2
1.1.3
1.2
1.2.1
Safety Instructions………………………………………………………………..3
Installation and Maintenance ……………………………………………………...3
Modification of System Components……………………………………………….3
Safety Valve……………………………………………………………………...3
Protective Measures…………………………………………………………..…..3
Preventing Corrosion ..…………………………………………………………...3
2
Unit Description ……………………………………………………….…….3
2.1
Heat Pump Principle ………………………………………………………..….4
2.2
Auxiliary Heater – Electric Heating Element…………………………….....….5
Water Heater……………………………………….…………………….....….5
2.3
2.4
Control Panel………………………………………………………….….....….6
2.4.1
Functions………………………………………………………….……….....….7
3
Operating Instructions……………………………………….……….....…..7
3.1
General Information……………………………………….……….....………..7
3.1.1 Menu Navigation……………………………………….………....................…..7
3.1.1.1 Display of current operating mode …………………………………….....…..7
3.1.1.2 Symbols ..…………………………………………………………...….....…..8
3.1.2
Menus……………………………………………………………...….....…...9
3.1.2.1 Main Menu INFORMATION ……………………………………………...….......9
3.1.2.2 Sub-Menu OPERATION ……………………………………………...….....…..10
3.1.2.3 Sub-Menu HEAT CURVE ..……………………………………………...….....….11
3.1.2.4 Sub-Menu TEMPERATURE………………………………………………...….......12
3.1.2.5 Sub-Menu INTEGRAL ………………………………………………......….......12
3.1.2.6 Sub-Menu OPERATING TIME …………………………………..……...….....….15
3.1.2.7 Sub-Menu RESET ……………………………......…………………..….....….15
3.1.2.8 Sub-Menu MAN TEST ………………………………………..………...….........15
3.1.2.9 Sub-Menu DEFROST ………………………………………..………...….........16
3.1.2.10 Sub-Menu SETTING ………………………………………..………...….........18
3.1.2.11 Sub-Menu LANGUAGE ………………………………………..………...….......20
Adjustments to be made regularly……………………………………...........20
3.2
3.2.1
Heat Generation – General ………………………………..………...…..............20
3.2.2
Adjustment of the CURVE value………………………………..………...…........20
3.2.3
Adjustment of ROOM value ………………………………..……… ...................21
3.2.4
Adjustment of Part of the Heat Curve ………………………………….... ..........23
3.2.5
Adjustment of the MIN and MAX value ………………………………… .............24
3.2.6
Adjustment of the HEAT STOP value ………………………………….... ............25
3.2.7
Graph of recent changes in TEMPERATURE…………………………….....…........25
3.3
Maximum Return Line Temperature…………………………….....… .........26
3.4
Warm Water Production………………………………..………….....…........26
3.5
Regular Checks ……………………………………………… …......…........26
3.5.1
Check of Operating Mode …………………………… ........................…........26
3.5.2
Checking the Water Level of the Heating System …………………………...….....26
Checking the Safety Valve …………………………… .....………………….....27
3.5.3
3.5.4
In the Event of Leakage ……………………………… ......………………….....27
4
Trouble shooting…………………………….....…………… …...............28
4.1
Alarm Messages …………………………….....…………………....... ........28
5
Terminology and Abbreviations …………………………….......….......29
6
Default Settings………………………….....…………………..................30
7
References………………………….....……… …………....... .................30
1 Important Information
* If the installation will be shut down during the winter months, the heating system should be emptied of water to
avoid any damage due to freezing.(Call your Installation Contractor for help, see ”References” on page 30).
* The installation is practically maintenance free, but some monitoring will be required (see ”Operating
Instructions” on page 7).
* Before making any adjustments of system parameters, first find out, what the consequences are in each case.
* For all service work, please call your installation contractor.
1.1 Safety Instructions
1.1.1 Installation and Maintenance
Installation and commissioning as well as repairs and maintenance must be carried out by a qualified installation
contractor (see ”References” on page 30).
Any changes in the electrical installation must be undertaken by a qualified electrician (see ”References”on page 30).
Service work on the refrigerant circuit must be carried out by a qualified refrige- ration technician (see ”References”
on page 30).
Danger to Life!
1.1.2
Modification of System Components
The below components can only be modified by a qualified installation contractor:
*
Heat Pump Unit
*
Refrigerant, warm water and power lines
*
Safety Valve
No structural changes may be made to the installation that might affect the operational reliability of the heat
pump.
1.1.3
Safety Valve
The following safety instruction s must be observed in regard of the safety valve of the heating circuit and the
overflow pipe:
*
Never close the connection between safety valve and overflow pipe.
*
When heated, water tends to expand which causes some water to be let out through the overflow pipe. This water
may be hot! The overflow pipe should therefore discharge into a floor drain placed so that nobody can get hurt.
1.2 Protective Measures
1.2.1
Preventing Corrosion
To eliminate any risks of corrosion, the use of all kinds of aeorosol should be avoided in the proximity of the heat
pump. In particular, avoid the following:
*
*
*
*
2
Solvents
Detergents containing chlorine
Paint
Glue
Unit Description
In order to get the best results from the climate system AWA-SS series you should read through the
section For the System manager in these Installation and Maintenance instructions.
AWA-SS series is a climate system for heating houses and apartment buildings as well as industrial properties.
Air can be used as the heat exchange source.
AWA-SS series is a complete heating installation for heating and hot water.
It is fitted with new design on the market to be developed specifically for heat pumps. A new evaporator enables a
new and improved circulation system for the refrigerant. The heat pump has an integrated 150 or 200 litre water tank and
3
an immersion heater. The Tap Water Stratification system improves the efficiency of heat transfer by keeping the water in
distinct thermal layers in the water tank.
The unit is fitted with a regulating computer, which is controlled over a graphic display unit.
Heat is distributed throughout the house over a hydronic heating system referred to as low temperature
system with a maximal water temperature to radiators ( Feed line temperature) of 65°C. Most of the heating
demand is taken care of by the heat pump (compressor unit), the auxiliary heater being started only when
demands exceed available heat pump capacity.
AWA-SS series consists of five main components:
a. Heat Pump Unit
Rotory or Scroll-compressor
Stainless steel heat exchangers
Circulation pumps for heating systems
Valves and safety equipment for refrigerant system, complete with necessary electric components
b. Water Heater
150 or 200 litre
Lined with copper sheet against corrosion or made of stainless steel
Maintenance free as no anode is used
c. Reversing Valve
Opening or closing the connection to water heater according to operating mode: heating or warm water production
d. Auxiliary Heater
3 / 6 / 9 kW electric heating element
Three-step capacity control
Fitted on supply line
Delivers back-up heat in case of great heat demand that exceeds heat pump capacity
Starts automatically, provided operating mode “AUTO” has been selected
e. Regulating Equipment
The regulating system controls heat pump components (compressor, circulation pumps, auxiliary heater and
reversing valve). Based on data received from sensors, it starts or stops heat pump operation and determines
whether heating or warm water shall be produced. The system consists of:
Control computer with graphic display unit
Temperature sensors (outside air,room, feed line, return line )
2.1 Heat Pump Principle
A heat pump can exploit the energy contained in natural heat sources. Or, to put it differently, the heat
pump ”collects” heat energy from the heat source. This makes the heat pump a very environmentally friendly and
economically sound alternative for space heating.
a.
The Outdoor unit is used as the heat pump’s evaporator. Here the heat energy of the Outdoor Unit causes
the refrigerant, circulating through the evaporator, to boil and turn into a gas – it evaporates.
b
The refrigerant, having absorbed heat energy, is circulated to the compressor where pressure and temperature
are raised.
c
The refrigerant continues to the condenser. When condensing, it releases heat energy to the heat carrier,
circulating through the condenser. The temperature of the refrigerant sinks, and it returns to its liquid state.
d
The heat energy released is carried by the heating circuit to water heater and radiator or floor heating systems.
e
At last the refrigerant is led through the expansion valve, where its pressure is reduced, and then continues to
the evaporator The process is restarted.
4
.
The heat pump has two separate liquid circuits
circuit – circulating inside the heat pump. Through evaporation, compression and condensation it
absorbs energy from the outdoor unit and releases it to the heat carrier. The refrigerant is chlorine-free.
Refrigerant
Heating circuit – water transporting heat energy to the heating system (radiators/floor coils) and the water
heater.
Heating Circuit
Condenser
Expantion valve/
pressure drop
Compressor/
pressure increase
Refrigerant
Refrigerant Circuit
Evaporator
Fan
2.2 Auxiliary Heater – Electric Heating Element
The auxiliary heater – an electric heating element fitted on the supply line – has three capacity steps:
Step 1 = 3 kW
Step 2 = 6
kW
Step 3 = 9
kW
2.3 Water Heater
AWA-SS series comes with a built-in water heater holding 150 or 200 litres. The temperature of the water sent to
the water heater is controlled by the regulating pressure switch and cannot be adjusted. Warm water production is
stopped when the regulating pressure switch reaches its operating pressure, which corresponds to about 50-55°C warm
water temperature. At regular intervals the water in the water heater will be heated to as much as 65°C as a preventive
measure against bacteria. The preset interval is 14 days. For more information, please refer to ”Warm Water Production”
on page 26.
5
AWA-SS
2.4 Control Panel
The control panel of AWA-SS series features a graphic display, five control buttons.
Beside the control panel you will find the User’s Manual, a short description of how to increase and reduce room
temperature, and a label with name and phone number of dealer.
ROOM
20
OPER. WARMWATER
MONDAY
11:30
1
Graphic display
6
ROOM
20
OPER. WA R M WAT E R
11:30
MONDAY
1
Control Buttons
˄influence key˅
2.4.1 Functions
The control computer is operated with the help of a user friendly menu system that is displayed on the control
panel. There is a main menu and several sub-menus accessible from the main menu. The menus are
described in detail further down.
To be able to select the desired menu and increase or reduce preset values, you will use the five buttons.
•
One button pointing upwards marked with a up arrow
•
One button pointing downwards marked with a down arrow
•
One button pointing to the right marked with a right arrow
•
One button pointing to the left marked with a left arrow
•
One button pointing to the ON/OFF
When display at the interface, press button Right for 5 seconds for locking the display (will show a symbol
of lock.) All buttons are not available after lock is active, until press button Right for 5 seconds to open the lock˗
if the lock is active and then power supply cut off, the lock will be open after power supply resume.
3
Operating Instructions
3.1 General Information
3.1.1
Menu Navigation
The right-hand button on the control panel is used to open the desired menu.
The left-hand button is used to return to the previous menu.
The up and down buttons are used to navigate between the parameters of a menu.
A cursor (arrow) on the left-hand side of the display indicates which menu can be opened.
The up and down buttons are also used if you wish to increase or reduce a preset value.
3.1.1.1 Display of current operating mode
During normal operation, the following information will be displayed:
• Desired (preset) room temperature
• Date / time / timer
• Whether there is a heating demand or not. If there is, there will
also be symbols telling which heat source is working,
heat pump or auxiliary heater or both (see ”Symbols”).
• Which operating mode has been selected.
7
ROOM
20
OPER. WARMWATER
MONDAY
1
11:30
Symbols
For you to know at a glance the actual operating mode of the heat pump, each of the following symbols
will be shown in the lower part of the display depending on which part of the unit is working:
1. The heat pump is running.
2. The auxiliary heater is activated.
3. There is a room heating demand.
4. Warm water is being produced.
5. Indicates the status of warm water production. If the symbol is empty, warm water temperature is
under the setting temperature. It does not mean that there is no water in the water tank.
The tank is always full.
6. If the symbol is full, warm water temperature reached to the setting temperature.
8
3.1.2 Menus
3.1.2.1 Main Menu INFORMATION
To open the main menu INFORMATION, press the right- or left-hand button once.
Return
Open
next
menu
INFORMATION
OPERATION
HEATCURVE
TEMPERATURE
INTEGRAL
OPER.TIME
RESET
MAN TEST
DEFROST
SETTING
LANGUAGE
Sub
menus
To select the desired sub-menu, use the up or down button. Open the menu by pressing the right-hand button once.
To return to the main menu, press the left-hand button once.
OPERATION
Running mode: Room heating 1, Room heating 2,Water tank heating.
HEATCRVE
The setting of this submenu will affect the room temperature; CURVE is program that adjusts feed water
temperature according outdoor ambient temperature, factory setting is ambient temperature 0ഒ as feed water
temperature 40ć, that is CURVE =40; the value of CURVE is adjustable from 22ć to 56ć. How to change
the slope—two points decide one beeline, point one is (0,40), the other point could be (18,24), the point
(18,24) is not changing when changing the slope, because factory setting is that heat pump stops when
outdoor ambient temperature is 18ć, so the feed water temperature should be 24ć.
TEMPERATURE
Temperature items setting.
INTEGRAL
Integral is a program to set the startup time and distance between compressor and electrical heater, to set
stop conditions of compressor and electrical heater. This program is depends on the "feed water temperature
degeneratiaon" and Time.
OPER.TIME
To calculate how much time have been running by compressor, electrical heater.
RESET
Return to factory settings: press button Right to go back all factory settings.
MAN TEST
Engineer testing
DEFROST
To set the defrosting manually or automatic defrosting setting
SETTING
To set Daytime,Time, electrical heater timing, water tank heating timing, whole unit timing, Emergency mode 1,
Emergency mode 2, auxiliary electrical heater.
9
3.1.2.2 Sub-Menu OPERATION
OPERATION
ROOMHEAT 1
ROOMHEAT 2
WARMWATER
HEATPUMP
ADD.HEAT
ON
ON
ROOMHEAT1᧶
After select mode ROOMHEAT 1, the heat curve is that feed water temperature determined by outdoor
ambient temperature. At the time, ROOMHEAT2 be of no effect.
ROOMHEAT2᧶
After select ROOMHEAT 2, feed water temperature is adjustable from 10 to 65ć, factory setting is 45ć. At
the time, the system is controlled by time and flow temperature, ROOMHEAT 1 is of no effect (not affected by
ambient temperature)
WARMWATER+ROOMHEAT1᧤ROOMHEAT2᧥᧶
Auto mode: select (¥) water tank heating and room heating at the same time, enter Auto mode. After enter
this mode, water tank heating has the priority (compressor restart when in water tank heating must follow
program ‘CMPDI TEMP’). When water tank get to setting temperature, three -way valve will change its
direction to room heating automatically. If the water tank temperature decrease, three-way valve’s direction will
go back to water tank heating.
HEATPUMP ᧤ON or OFF᧥
ON᧶select ON,
compressor is running normally.
OFF᧶select OFF, only switch off compressor᧨the others are running normally.
ADD.HEAT
᧤ON or OFF᧥
ON᧶select ON, electrical heater is running normally.
OFF᧶select OFF, only switch off electrical heater᧨the others are running normally.
If you wish to change operating mode:
a.
Open the main menu INFORMATION by pressing the right-hand button once. You will find the cursor at
the sub-menu named OPERATION.
b. Open the OPERATION menu by pressing the right-hand button once. You will find the cursor at the
previously selected operating mode.
c. Select the desired mode by pressing either the ”up” or ”down” button.
Return to the main menu by pressing the left-hand button twice.
10
3.1.2.3 Sub-Menu HEAT CURVE
This menu is used for making adjustments that affect the room temperature.For more information, please refer
to ”Adjustments to be made regularly” on page 20.
HEATCURVE
CURVE
MIN
MAX
CURVE 5
CURVE 0
CURVE -5
HIGH T° STOP
LOW
T° STOP
-50
40
22
70
0
0
0
50
Table 1: Menu– HEAT CURVE
Menu Text
CURVE
MIN
Description
The value entered shows the temperature of the water
to be distributed to the radiators (feed water
temperature) when the outside air temperature is 0°C.
Adjustment of value for lowest feed water temperature
allowed.
MAX
Adjustment of value for highest feed water
temperature allowed.
CURVE 5
Adjustment of room temperature when the outside air
temperature is +5°C.
Adjustment of room temperature when the outside air
temperature is 0°C.
Adjustment of room temperature when the outside air
temperature is -5°C.
When outdoor ambient temperature is higher than
this setting, the hot water to room will be stopped.
CURVE 0
CURVE – 5
HIGH T STOP
LOW T STOP
When outdoor ambient temperature is lower than
this setting, the hot water to room will be stopped.
11
Adjustable by
used(see ”Adjustment
of CURVE value” on p20.)
used(see ”Adjustment
of MIN & MAX value” on p24.
)
used(see ”Adjustment
of MIN & MAX value” on p24.
)
used(see ”Adjustment
of CURVE value” on p20.)
used(see ”Adjustment
of CURVE value” on p20.)
used(see ”Adjustment
of CURVE value” on P20 .)
this setting is adjustable
from 0 to 50ć,factory
setting is 50ć.
this setting is adjustable
from 0 to -50 ć, factory
setting is -50ć.
3.1.2.4 Sub-Menu TEMPERATURE
This menu shows the different temperatures of the heating system. All temperature changes registered over
the last 60 minutes are stored in the control system and can be viewed in the shape of graphs.
TEMPERATURE
OUT
ROOM
FEED.
RETURN
WARMWT
PIPE
25
28
30(65)
45
30(50)
22
OUT˖Display outdoor ambient temperature.
ROOM ˖ Display room air temperature.
FEED˖
1.the first value is real feed water temperature, the second value in ‘( )’ is feed water setting
temperature in ROOMHEAT 1 mode, it is adjusted by slope of Curve according to outdoor ambient
temperature. Factory setting is that feed water temperature is 40ć when outdoor ambient temperature is
0ć, that is to say Curve is 40, the value of Curve is adjust from 22ć to 56ć. This setting is only
available for Room heating, not for water tank heating.
2. under ROOMHEAT 2 mode, FEED setting can be adjust directly from 20 to 65ć, factory setting
is 45ć; this setting is only available for room heating, not for water tank heating.
RETURN˖ Display return water temperature.
WARMWT˖ water tank temperature, the first value is water tank real temperature, the second value in
‘ ( )’ is water tank setting temperature; the setting temperature is adjustable from 20 ć to 62ć, factory
setting is 45ć.
PIPE˖Display outdoor unit evaporator temperature (for defrosting)
When at item WARMWT or RETURN or FEED, or PIPE, press button Right 5 seconds will
display the information as follow kind of chart, to check how the temperature is going in one hour.
3.1.2.5 Sub-Menu INTEGRAL
INTEGRAL
OFF
CMP A
ADD 1
ADD 2
ADD 3
.
- 60
- 500
- 550
- 600
12
00
00
( 00)
( - 60)
( - 500)
( - 550)
Integral (DM) is a program to set the startup time and distance between compressor and electrical
heater according to heat demand and heat output, to set stop conditions of compressor and electrical
heater. This program is depends on the "feed water temperature degeneratiaon" and Time. To enter this
menu operator can change the factory setting:
Menu Text
OFF
CMP.A
ADD1
ADD2
ADD3
Description
When the value (testing) reaches the value setting by
user, the system will be closed.
When the value (testing) reaches the value setting by
user, the compressor will be start-up. And the value
(testing) under the value (setting), the compressor will
be closed.
When the value (testing) reaches the value setting by
user, the ADD 1 will be start-up. And the value (testing)
under the value (setting), the ADD1 will be closed.
When the value (testing) reaches the value setting by
user, the ADD2will be start-up. And the value (testing)
under the value (setting), the ADD2 will be closed.
Adjustable by
USER
When the value (testing) reaches the value setting by
user, the ADD 3 will be start-up. And the value (testing)
under the value (setting), the ADD3 will be closed.
USER
USER
USER
USER
Instruction of Integral (DM)
Degree Minute = The corresponding value of temperature difference between the Feed water
and the Desired water X Running time ( through integral to change; every minute for a cumulative)
Temperature difference between the feed water
and the desired water ( ć )
-31 ~ -40
-21 ~ -30
-11 ~ -20
-1 ~ -10
1
~ 10
11 ~ 20
21
~ 30
31
~ 40
The corresponding value
-40
-30
-20
-10
10
20
30
40
For example:
(Under desired temperature)
Feed water temperature decrease 1ć (under desired temperature) in 1 minutes,
Degree Minute=-10 X 1= -10;
Feed water temperature continue decrease 2ć(under desired temperature) in another 1 minutes,
Degree Minute=-10 X 1 + (-10) = -20;
Feed water temperature continue decrease 3ć(under desired temperature) in another 1 minutes,
Degree Minute=-10 X 1 + (-20) = -30;
Feed water temperature continue decrease 4ć(under desired temperature) in another 1 minutes,
Degree Minute=-10 X 1 + (-30) = -40;
……………………
13
Before the Degree Minute reach - 60 (adjustable) ,the compressor is off, but when the Degree Minute
reach - 60 (adjustable) ,the compressor automatic start, and the flow temperature will begin increase.
(Higher than desired temperature) when the actual water supply temperature reach / higher than the
desired temperature, the DM will be changed.
For example : the DM was cumulated to -160 in this time.
1 minutes later when the Feed water temperature higher than desired temperature for 1ć.
10X1=10 , Degree Minute= -150;
Another 1 minutes later when the Feed water temperature higher than desired temperature for
2ć. 10X1=10, Degree Minute= -140;
Another 1 minutes later when the Feed water temperature higher than desired temperature for
3ć. 10X1=10, Degree Minute= -130;
Another 1 minutes later when the Feed water temperature higher than desired temperature for
4ć. 10X1=10, Degree Minute= -120;
……………………
Compressor off when Degree Minute reach 0 (adjustable) .
The relationship between compressor (on and off) and DM,the relationship between heater(on and off)
and DM.
The above chart is describing that running of compressor and electrical heater depend on Integral
Compressor ‘s Degree Minute are :-60 (on) and 0(off),A0=-60 (on)
Heater 1’s Degree Minute are : ‘-500’(on) and ‘-60’(off), A0+A2=-60-440=-500 (on)
Heater 2’s Degree Minute are : ‘-500’(on) and ‘-500’(off)
Heater 3’s Degree Minute are : ‘-600’(on) and ‘-550’(off)
14
3.1.2.6 Sub-Menu OPERATING TIME
OPERATION TIME
HEATPUMP
ADD 1
ADD 2
ADD 3
Menu Text
HEATPUMP
ADD1
ADD2
ADD3
3.1.2.7
0 H
0 H
0 H
0 H
Description
Adjustable by
Total operating hours of heat pump since installation.
Operating time will not be reset to zero.
can not
Total operating hours of auxiliary heater
(3kW) since installation. Operating time will
will not be reset to zero.
can not
Total operating hours of auxiliary heater
(6kW) since installation. Operating time will
will not be reset to zero.
can not
Total operating hours of auxiliary heater
(9kW) since installation. Operating time will
will not be reset to zero.
can not
Sub-Menu RESET
Reset to factory setting value. Press the right button for 5 seconds.
3.1.2.8
Sub-Menu MAN TEST
MAN TEST
ADD 1
ADD 2
ADD 3
HEATPUMP
3 WAY
4 WAY
WARM PUMP
OUT FAN
OFF
OFF
OFF
OFF
OFF
OFF
OFF
OFF
How to enter the Sub-Menu MAN TEST:
You need to choose the "MAN TEST"on the main menu ( INFORMATION)
And press the right button for 3 seconds .
The Sub-Menu MAN TEST contains ADD1 / ADD2 / ADD3 / HEAT PUMP / 3 WAY
4 WAY / WARM PUMP / OUT FAN; You can choose ON / OFF to control the each part for testing.
Notice: when installer to test the components function in submenu ‘MAN TEST’, it recommend that
start the water pump before start the compressor and electrical heater.
15
3.1.2.9
Sub-Menu DEFROST
How to enter the Sub-Menu DEFROST:
You need to choose the "DEFROST"on the main menu ( INFORMATION).
Press the right button.Then "DEFROST"menu can be seen.
You can choose "Intell Defrost"or "Manual Defrost"
DEFROST
INTELL. DEF.
MANUAL. DEF.
DEF. TIME
INTERVAL
START TEMP
EXIT TEMP
SINCE TIME
0 M
1
BETW. TIME
DEF. ADD
15 M
40 M
-4
15
0 M
INTELL.DEF:
Intelligent defrost program: after you choose this function, defrost program is intelligent and automatical;
when outdoor unit’s heat changer ( evaporator)’s pipe temperature is less than 3 ćcontinuously for 40
minutes, and the temperature is less than setting temperature, will start the defrosting.
After defrosting:
The longest time is 10 minutes
60 s
ON
10 s
ON
compressor,
30s
OFF
ON
ON
Four-way valve,
OFF
ON
ON
outdoor fan)
OFF
In Intelligent defrost mode, operator can adjust the setting of defrosting according to different ambient
temperature and humidity.
Select START TEMP, then press button Right for a long time, to enter the defrosting setting:
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
2
-3
-7
-11
-16
-20
1
-3
-8
-12
-17
-21
0
-4
-9
-13
-18
-22
-1
-5
-10
-14
-19
-23
-2
-6
-11
-15
-20
-24
-3
-7
-12
-16
-21
-25
-4
-8
-13
-17
-22
-26
-5
-9
-14
-18
-23
-27
-6
-10
-15
-19
-24
-28
16
When choose Intelligent defrost mode, the Defrost start temperature will be the same as above form
when the ambient temperature is lower than 2 degree, all the value of the form is factory setting and
they are adjustable from 0 to -30 degree. Press button Right 5 seconds to enter the form, operator can
select any defrost start temperature and revise it. For example, after change the defrost start
temperature to be -12 degree under ambient temperature is -3 degree, all the defrost temperature which
more than -12 degree will change automatically to -12 degree under the kinds of ambient temperature
which less than -3 degree.
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
-3
Change to -12
-6
Change to -12
-9
Remain-13
-4
Change to -12
-7
Change to -12
-10
Remain-14
-5
Change to -12
-8
-11
Remain-15
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
Remain-12
Outdoor
ambient
temperature
Defrost
start
temperature
(pipe at
evaporator)
After confirmation, the factory setting will change to above and be as new default.
MANUAL.DEF:
Manually defrost (adjustable defrost program)˖This function is semi-automatic. For example, operator
can change the value of INTERVAL( the distance between two defrosting) to be 40 min, and the START
TEMP(the start temperature of defrosting) to be -4degree, when the defrosting time request and
temperature request were meet at the same time, heat pump go to defrost.
Defrost finish: when outdoor evaporator pipe temperature (EXIT TEMP)’s setting is 15 degree or EXIT
TIME (defrosting timing), the defrosting will finish as soon as get one of them.
DEF.TIME:
Duration of defrostingˈadjustable from 2 to 20min(factory setting is 15min˅defrosting duration
INTERVAL:
Interval of defrosting ˈadjustable from 25 to 70min(factory setting is 40min˅
START TEMP˖
Start temperature of defrosting( pipe temperature of outdoor evaporator)ˈadjustable from 2 to -30
degree˄ factory setting is -4 degree˅
EXIT TEMP˖
Exit temperature of defrosting( pipe temperature of outdoor evaporator), adjustable from 0 to 20degree
˄factory setting is 15degree˅
SINCE TIME:
Start and exit time of defrosting, to indicate whole time of defrosting.
BETW.TIME:
To record the interval between the ending of first defrosting and the beginning of second defrosting.
DEF . ADD:(default is 1)
Electrical heaters optional:
Select 1, only start one piece electrical heater during defrosting.
Select 2, only start two piece electrical heaters during defrosting.
Select 3, start all three piece electrical heaters during defrosting.
Select OFF, none electrical heater will start during defrosting.
17
3.1.2.10 Sub-Menu SETTING
How to enter the Sub-Menu SETTING:
You need to choose the "SETTING"on the main menu ( INFORMATION).
Press the right button.Then "SETTING"menu can be seen.
SETTING
DATE TIME
TIME
TIMER 1 ON
TIMER 1 OFF
TIMER 2 ON
TIMER 2 OFF
ADD.HEAT TIMER
MON
11:30
X
X
X
X
DATE TIME
To display or adjust day of week.
Double timer function:
TIMER1 ON ˖¥ 9˖00
TIMER2ON ˖¥ 14˖00
TIME ON
(ON)21:00-08:00(OFF)
WARMWT TIMER
(ON)18:00-22:00(OFF)
CMPDIF TEMP
EMERGENCY 1
EMERGENCY 2
OUT ADD.HEAT
5
OFF
ON -25
ON
HDO
ADD DELAY
ADD START
STERILAZE
OFF
30 M
50
TIME
To display time, or adjust time.
TIMER1 OFF ¥ 1 2˖00
TIMER2 OFF ¥ 18˖00
When choose mark “¥”, the Auto start function is active, choose “×”for cancel this function. If this function
is active, every day during the timing, the heat pump will work normally.
TIME OFF
When choose mark “¥”, the Auto stop function is active, choose “×”for cancel this function. If this function
is active, every day during the timing, the heat pump will stop normally.
ADD.HEAT TIMER ¥ ( ON) 21:00-----9:00 (OFF)
When choose mark “¥”, the Auto start function of electrical heater is active, choose “×”for cancel this
function. If this function is active, every day electrical heater will start and stop automatically according to the
setting.
WARMWATER TIMER ¥ ( ON) 21:00-----9:00 (OFF)
When choose mark “¥”, the Auto start function of water tank heating is active, choose “×”for cancel this
function. If this function is active, every day water tank heating will start and stop automatically according to the
time setting.
When heat pump is ON, water tank timer function makes sure the water tank heating has priority.
If the heat pump is ON with mode WARMWATER only:
Then if set water tank timer to be: 6:00(ON) ---12:00(OFF), the water tank heating will be available only during
clock 6:00 –12:00.
If the heat pump is ON with mode Auto (WARMWATER+ROOMHEAT):
Then if set water tank timer to be: 6:00(ON) ---12:00(OFF), the water tank heating will be available only during
clock 6:00 –12:00, the rest time will turn to room heating.
CMPDIF TEMP:
compressor restart determined by water temperature degeneratiaon of water tank. This setting is only
for water tank heating, it is adjustable from 3 to 15 ć, and factory setting is 5ć.
EMERGENCY1(ONorOFF)
Emergency mode 1˄emergency 1˅:˄ON or OFF˅ˈfactory setting is OFF(after select emergency mode,
the unit will continuously execute the same objective (room heating only, water tank heating only, or auto)
When select ON, compressor will be switch off, only electrical heater, water pump or other temperature
protection are available. When in water tank heating, the electrical heater will instead of compressor; when in
room heating mode, the electrical heater will runs depends on Integral; when in room heating mode 1, the
electrical heater will runs depends on Integral; when in room heating mode 2, the electrical heater
automatically starts, unless operator off the electrical heater.
18
EMERGENCY2(ONorOFF)
Emergency mode 2˄ emergency 2˅˄
: ON or OFF˅ˈfactory setting is OFF: (after select emergency mode,
the unit will continuously execute the same objective (room heating only, water tank heating only, or auto)
When select this mode, compressor will stop determined by outdoor ambient temperature, the
temperature setting is from 0 to -50 degree adjustable, factory setting is -25 degree, only electrical heater,
water pump or other temperature protection are available. When in water tank heating, the electrical heater will
instead of compressor; when in room heating mode, the electrical heater will runs depends on Integral; when in
room heating mode 1, the electrical heater will runs depends on Integral; when in room heating mode 2, the
electrical heater automatically starts, unless operator off the electrical heater.
OUT ADD.HEATON(OFF)
On sub-menu SETTING, to control outdoor unit electrical heater( bottom electrical heater, evaporator heater),
factory setting is ON
Display˖OUT ADD.HEAT ON ( default)
1. when the outdoor electrical heater is ON, and the compressor is running
Aǃthe heater will start when heat pump defrost, to speed up defrosting process.
Bǃthe heater will start when ambient temperature is less than 0 ˚ɋ , and stop when ambient temperature is
more than 4˚ɋ
Display ˖OUT ADD.HEAT OFF
2 When the outdoor electrical heater be select OFF, the outdoor heater can not start automatically.
HDO ON(OFF)
.1 Switch it on the input signal on the wire HDO would block the compressor, fan and additional heater˗
.2Switch it off, the input signal would block nothing.
External signal controls heat pump start and stop: there two signal connections, when external relay
switch on them, the compressor, electrical hearer and motor will stop running. After switch off them, the
compressor, electrical heater, motor will restart and work as previous setting.
ADD DELAY : ( 3 to 90 Min adjustable , factory setting is 30M )
ADD START : ( 45 to 70 degree adjustable , factory setting is 50 degree )
when heating the water tank (after only runs compressor 10 minutes ), if two conditions are fulfilled,
the electrical heater 1 will start automatically: 1) the current water temperature more than 50ć (this setting
is adjustable from 45ć to 70ć); 2) the water temperature can not increase 1ć in a certain time (from 3 to 90
minutes adjustable, default is 30 minutes); after start electrical heater 1, if the water temperature can not
increase 1 ć in a certain time, then electrical heater 2 will start automatically; after start electrical heater 2,
if the water temperature can not increase 1 ć in a certain time, the electrical heater 3 will start
automatically; then electrical heater work until water get the setting temperature.
STERILIZE:
STERTLIZE
WATER TEMP
DURATION
PERIOD
60
10 M
15 D
Sterilize water temperature:˄60ć--90ć adjustable˅default is 60ć
Sterilize duration :˄10—90minutes˅default is10 minutes
Sterilize period :˄7----99days˅default is 15 days
If the water tank’s temperature always less than 60ć (default) and last 360 hours(period), the heat
pump will start the sterilize function ( the electrical heater start as soon as water get to 50ć), until
water temperature get to 60ć(default) and last 10 minutes( default); or if 3 hours later the water
temperature still can not reach 60ć, the sterilize function will exit.
19
3.1.2.11 Sub-Menu LANGUAGE
Language selection : How to enter the Sub-Menu of LANGUAGE:
You need to choose the "LANGUAGE"on the Main menu ( INFORMATION ).
Press the right button.Then "LANGUAGE"menu can be seen.
LANGUANG
ENGLISH
DEUTSCH
Use Up and Down botton to select the language ,and press Right button to confirm.
3.2 Adjustments to be made rregularly
Most settings will be made by the installation contractor in connection with installation. Adjustments to be
made regularly by the user are the following:
• Selection of operating mode
• Adjustment of desired room temperature by changing the ROOM value.
• Adjustment of heat curve
• Adjustment of maximum and minimum values for feed line temperature
• Adjustment of the value for HIGH T STOP or LOW T STOP is possible. (Please refer to ”Adjustment of HIGH T STOP
or LOW T STOP value” on p. 25)..
3.2.1 Heat Generation - General
The indoor temperature should be adjusted by changing the heat curve of the installation. The control
computer determines the correct temperature of the water to be distributed to the heating system based on
the heat curve. The heat curve will be adjusted in connection with installation. It must be adapted later on,
however, to obtain a pleasant indoor temperature under any weather condition. A correct heat curve
reduces maintenance and saves energy.
The heat curve determines the feed line temperature depending on the outside air temperature. The lower
the outside air temperature, the higher the feed line temperature. In other words, the temperature of the
water feed to the radiators will increase exponentially as the outside air temperature falls.
If you select CURVE in the sub-menu named HEAT CURVE, a diagram will be displayed. It represents the
relation of outside air temperature to feed line temperature. This relation is referred to as heat curve.
Heat curve
Feed line
temperature
40 C
CURVE
18
64
56
Relation of outside
air temperature to
Feed line temperature
48
40
32
24
18
5
-5
0
C
Outside air temperature
3.2.2 Adjustment of the CURVE value
The heat curve will be adjusted by the CURVE value. This value indicates the feed line temperature
to the radiators at 0°C outside temperature. At outside air temperatures lower than 0°C, the water sent to
the radiators will be warmer than 40°C.
At outside temperatures higher than 0°C, the water will be colder than 40°C. When you increase the
CURVE value, the heat curve will become steeper and when you reduce it, it will become flatter.
This is the most energy and cost efficient way to set the indoor temperature and should therefore be
used for long term temperature settings. If you wish to make a temporary change of temperature, you
can simply change the ROOM value (see ”Adjustment of the ROOM value” on page21).
20
CURVE is program that adjusts feed water temperature according outdoor ambient temperature,
factory setting is ambient temperature 0ć as feed water temperature 40ć, that is CURVE =40; the
value of CURVE is adjustable from 22ć to 56ć.
How to change the slope—two points decide one beeline, point one is (0,40), the other point could be
(18,24), the point (18,24) is not changing when changing the slope, because factory setting is that
heat pump stops when outdoor ambient temperature is 18ć, so the feed water temperature should be
24ć.
CURVE
40 C
18
64
56
48
40
32
24
18
5
0
-5
C
Change of value for CURVE
If you wish to change the CURVE value:
1.Open the main menu INFORMATION by pressing the right-hand button once. You will find the cursor
at the sub-menu named OPERATION
2.Press the ”down” button to move the cursor to the sub-menu called HEAT CURVE.
3.Press the right-hand button once to open the menu. You will find the cursor at the parameter CURVE
4.Open the selected parameter by pressing the right-hand button once.
5.Increase or reduce the preset value using the ”up” or ”down” button. You will see from the diagram how
the gradient of CURVE changes.
Press the left-hand button three times to return to the main menu.
3.2.3 Adjustment of ROOM value
As mentioned above, you can also adjust heat curve and indoor temperature by changing the ROOM value. If
you use ROOM value to adjust the heat curve, the gradient does not change, i.e. it doesn’t become steeper or
flatter. Instead, the whole curve is moved by 1°C for every degree by which the ROOM value is changed.
The relation feed line temperature to outside air temperature will not be affected. The feed line
temperature will be increased or reduced by the same number of degrees all along the heat curve. See the
following diagram.
Adjustment of the ROOM value should only be used for temporary changes of the indoor temperature. For long
term settings, the CURVE value should be adjusted as this is the most energy and cost efficient way to set the indoor
temperature.
For adjusting the heat curve, please refer to the chapter ”Adjustment of the CURVE value” on page 20.
You need to choose the "room"on the Sub-menu ( TEMPERATURE ),then press the right button.
Use UP and DOWN button to adjust the "ROOM CURVE". Factory setting of ROOM value is 20°C.
40 C
CURVE
18
64
56
48
40
32
24
18
5
0
-5
Chan gin g the ROOM value
21
C
If you wish to change the ROOM value:
1
Press the ”up” or ”down” button once to open the ROOM value for adjustment.
2
Increase or reduce the preset value using the ”up” or ”down” button so that the desired room temperature is
reached. Wait for 10 seconds or press the left-hand button once to return to the main menu.
When enter ‘Room heat’ mode, user could control compressor and electrical heater through
regulate heat curve or DM (degree minute).
under a certain ambient temperature ,the time start of compressor is determined by degree
minute(DM).
Now we are giving two situations to explain.
1. ‘start quickly’ is determined by FEED(heat curve)
Suppose now the feed water temperature is 25ć; regulate the heat curve to let the setting of water
temperature to be a higher value such as 55ć,that is FEED25(55). At that time, DM (degree
minute) decrease -30 per minute, when the DM reach -60, compressor will start right away.
(Notice: if the water temperature setting is lower than feed water temperature DM would turn
to positive number, and then compressor does not start. Of course, you also can regulate the DM to be
near the value for compressor start, such as -20.
40 C
CURVE
18
64
turn it up
56
48
40
32
24
18
5
0
-5
C
2. ‘start slowly’ is determined by FEED(heat curve)
Suppose now the feed water temperature is 25ć,if regulate the heat curve to let the setting of water
temperature to be a lower value such as 30ć, that is FEED25(30); at that time, the DM would decrease 10 per minute, the time to reach -60 is becoming longer, only after some time, then
compressor can start. You also can regulate the DM to be more far away from the value for compressor
start, such as (-100).
CURVE
40 C
18
64
56
48
40
32
24
18
5
0
-5
C
curve is a little flat
When enter room heat mode, it needs customer to regulate the heat curve or DM (degree minute)
according to own request.
22
3.2.4 Adjustment of Part of the Heat Curve
At outdoor temperatures between -5°C and +5°C part of the heat curve may need adjusting if the indoor
temperature does not stay at the preset ROOM value. For this reason, the control system includes a
function adjusting the curve at three outside temperatures: -5°C, 0°C, +5°C. This function will allow you
to increase or reduce the feed line temperature, without affecting the heat curve, at three specific outdoor
temperatures. If, for example, the outside temperature is -5°C, the feed line temperature will
change gradually in the outdoor temperature range of 0°C to -10°C, maximum adjustment being reached
at -5°C. The diagram below shows an adjusted CURVE -5. The point of maximum adjustment is clearly
visible.
As we have seen, you can choose to adjust the heat curve at three specified out- side air temperatures:
-5°C,0°C and +5°C. The feed line temperature can be changed
by plus/minus 3 degrees.
.
34 C
CURVE
0
64
56
48
40
32
24
18
5
0
-5
C
When outdoor ambient temperature is 5ć, this setting is available to change the feed water temperature,
it is adjustable by operator: heat curve is not change (the slope is no change), but the point near 5ć
(from 0ć to 10ć), curve can be change step by step; the variable is the biggest at 5ć, it is f3ć
43 C
CURVE
3
64
56
48
40
32
24
18
5
0
-5
C
When outdoor ambient temperature is 0ć,this setting is available to change he feed water temperature,
it is adjustable by operator: heat curve is not change ( the slope is not change), but the point near 0ć
(from -5ć to +5ć), curve can be change step by step; the variable is the biggest at 0ć,it is f3ć.
45 C
CURVE
0
64
56
48
40
32
24
18
5
0
-5
C
When outdoor ambient temperature is -5ć,this setting is available to change he feed water temperature,
it is adjustable by operator: heat curve is not change ( the slope is not change), but the point near -5ć
(from 0ć to -10ć), curve can be change step by step; the variable is the biggest at 0ć,it is ±3ć.
23
If you wish to change a specific part of the heat curve:
1. Open the main menu INFORMATION by pressing the right-hand button once. You will find the cursor
at the sub- menu OPERATION.
2. Press the ”down” button to move the cursor to the sub-menu HEAT CURVE.
3. Open the selected menu by pressing the right-hand button once. You will find the cursor at the
parameter CURVE.
4. Using the ”up” or ”down” button, select either CURVE 5, CURVE 0 or CURVE -5.
5. Open the selected curve by pressing the right-hand button once.
6. Raise or lower the value, using respectively the ”up” or ”down” button. To return to the main menu,
press the left- hand button three times.
3.2.5 Adjustment of the MIN and MAX value
The MIN and MAX value is the lowest respectively highest value that is allowed for the supply line
temperature. Adjusting the minimum and maximum supply line temperature is particularly important if
your home has floor heating. If your house has floor heating and parquet floor, the supply line
temperature should not be higher than 45°C. Else the floor might get damaged. If you have floor coils
and stone tiles, the MIN value should be 22-25°C in summer when no heating is required to obtain a
comfortable floor temperature.
MIN
MIN is the minimum setting of feed water temperature; it is adjustable by operator from10 to 30 ć,
factory setting is 22ć; if the room’s floor use ceramic tile, then the setting of MIN can not less than
22ć (this value can get a comfortable floor temperature); the heat pump will restart as soon as
actual feed water temperature less than MIN setting.
MAX
MAX is the maximum setting of feed water temperature, it is adjustable by operator from 30 to 70ć,
and factory setting is 70ć; if heat pump is using for floor heating, this setting is very important,
because at the time the feed water temperature can not higher than 70ć, otherwise could be
dangerous; the heat pump will stop as soon as actual feed water temperature more than MAX
setting.
If there is a basement to your house, the MIN value should be adjusted to a suitable temperature in
summer too, to avoid a humid and chilly basement. In such cases, the value for HEAT STOP needs
being adjusted upwards. If you wish to change the MIN or MAX value:
1. Open the main menu INFORMATION by pressing the right- or left-hand button once. You will find the
cursor at the sub-menu OPERATION
2. Press the ”down” button to move the cursor to the sub-menu HEAT CURVE
3. Open the selected menu by pressing the right-hand button once. You will find the cursor at the
parameter CURVE.
4. Press the ”down” button to move the cursor to MIN.
5. Open the selected parameter by pressing the right-hand button once. The cursor is at MIN
6. Raise or lower the value, using the ”up” and ”down” button respectively.
7. Press the left-hand button three times to return to the main menu.
Repeat the procedure to change the MAX value, replacing MIN by MAX at step 4.
24
3.2.6
Adjustment of the HIGH T STOP and LOW T STOP
‘HIGH T STOP’ and ‘LOW T STOP’ functions are only for room heating, the water tank heating still works
normally when the two functions are active.
The HIGH T STOP and LOW T STOP function stops water production to room floor when the outside air temperature
is equal to higher or lower than the value entered for HIGH T STOP or LOW T STOP. When the function is activated,
the circulation pump will be turned off. The factory setting of the HIGH T STOP is 50°C.( 0 ~50 °C adjustable )
The factory setting of the LOW T STOP is -50°C.( -50 ~0 °C adjustable ) .
If you wish to change the HIGH T STOP OR LOW T STOP value:
1
Open the main menu INFORMATION by pressing the right- or left-hand button once.
You will find the cursor at the sub-menu OPERATION
2
Press the ”down” button to move the cursor to the sub-menu HEAT CURVE
3
Open the selected menu by pressing the right-hand button once.
4
You will find the cursor at the parameter CURVE.
5
Press the ”down” button to move the cursor to HIGH T STOP or LOW T STOP.
6
Open the selected parameter by pressing the right-hand button once. The cursor moves to HIGH T STOP
or LOW T STOP.
7
Raise or lower the value, using respectively the ”up” or ”down” button.
8
Press the left-hand button three times to return to the main menu.
3.2.7
Graph of recent changes in TEMPERATURE
All temperatures registered during the last hour can be viewed in the sub-menu TEMPERATURE in the shape of a
graph. This will enable you to monitor changes in the different system temperatures.
FEEDLINE
48 C
64
48
32
16
0
-16
60
30
There is a graph available for all temperatures, except for the OUT / ROOM temperature,where you can only
view the measured value. The integral value that is displayed represents the heating system’s energy balance.
If you wish to check the TEMPERATURE graphs:
1
Open the main menu INFORMATION by pressing the right- or left-hand button once.
You will find the cursor at the sub-menu OPERATION.
2
Press the ”down” button to move the cursor to the sub-menu TEMPERATURE
3
Open the menu by pressing the right-hand button once.
4
You will find the cursor at the parameter OUT.
5
Press the ”down” or ”up” button to move the cursor to the desired temperature.
6
Open the selected value by pressing the right-hand button once. A graph will be shown in the display.
7
Move the cursor along the time axis using the ”up” (plus) or the ”down” (minus) button.
The exact temperature at the selected point of time appears at the top of the display.
Press the left-hand button three times to return to the main menu.
8
25
3.3 Maximum Return Line Temperature
The maximum return line temperature, i.e. temperature of the water returning from the heating system, should
be adapted to each individual installation. The correct temperature value for your system will be entered by your
installation contractor in connection with installation and can be adjusted later.
3.4 Warm Water Production
The temperature of the water distributed to the water heater is controlled by the regulating pressure switch
and cannot be adjusted.
Reading of warm water temperature.
To check the actual warm water temperature on the display:
1
Open the main menu INFORMATION by pressing the right- or left-hand button once.You will find the cursor at the
sub-menu OPERATION.
2
Press the ”down” button to move the cursor to the sub-menu called TEMPERATURE.
3
Open the menu by pressing the right-hand button once.
4
Press the ”down” button to move the cursor to the parameter WARMWATER.
5
Open the selected parameter by pressing the right-hand button for 3 seconds.
A graph will be shown of last hour’s warm water temperatures.
6
Press the left-hand button three times to return to the main menu.
The value displayed next to the parameter WARMWATER is the actual hot water temperature. The value in brackets is
the temperature at which warm water production will start. When the actual temperature falls below that value, warm
water production starts. The starting value is not adjustable.
3.5 Regular Checks
3.5.1 Check of Operating Mode
In the event of an alarm, The background light of LCD will flash and an alarm message will be displayed.
ALARM
AND.HEAT OVER
OR FLOW TROUBLE
Check the alarm indicator regularly to make sure that the heat pump works properly. You would not always notice if
there is something wrong, as the auxiliary heater would start automatically (provided, of course, operating mode
AUTO was selected). For more information, please refer to the chapter TROUBLE SHOOTING on p. 28.
3.5.2 Checking the Water Level of the Heating System
The pressure of the heating system should be checked once monthly. The pressure, shown on the external pressure
gauge, should be 1-1,5 bar. If the value is below 0.8 bar with cold water in the heating system, more water must be
added (applies to a closed expansion vessel). To find out where the pressure gauge is located.
You can use ordinary tap water for filling the heating system. In some rare cases the water quality would be
unsuitable for this purpose (corrosive or calcareous water). In case of doubt, we would recommend that you call
your installation contractor.
26
Don’t use any water treatment additives for the heating system!
3.5.3 Checking the Safety Valves
Both safety valves of the heating system should be checked at least four times a year to prevent lime deposits to
clog the mechanism. To find out where the safety valves are located.
The safety valve of the water heater protects the closed heater against positive pressure. It is fitted on the cold
water inlet line, its outlet opening facing down- wards. If the safety valve is not checked regularly, the water heater
might be damaged. It is quite normal that the safety valve lets out small amounts of water when the water heater is
being charged, especially if a lot of warm water was used previously.
To check the safety valves, give the cap a quarter of a turn clockwise until the valve lets out some water through
the overflow pipe.
If a safety valve does not work properly, it must be replaced. Check with your installation contractor.
See ”References” on page 30.
The opening pressure of the safety valve is not adjustable.
3.5.4 In the Event of Leakage
In the event of leakage in the warm water lines between unit and water taps, the shut-off valve on the cold water
inlet line should be closed immediately.
Call your installation contractor (see ”References” on page 30). In the event of leakage in the sytem circuit, turn
off the heat pump and call your installation contractor immediately. See ”References” on page 30.
27
4
Trouble shooting
4.1 Alarm Messages
In the event of an alarm message, try to re-start the unit with the safety switch.
If this does not work, try to solve the problem with the help of the table below. Call your installation contractor if
you need help. See ”References” on page 30.
Table 3: Alarm Messages
Error code
RETURN
TEMP
FEEDLINE
TEMP
PIPE TEMP
Explanation
Cause
How to do
Return water temperature
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
sensor error;
defective.
Under 25 °C, the resistance of sensor should be 5K
Supply water temperature
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
sensor error;
defective.
Under 25 °C, the resistance of sensor should be 5K
Defrost temperature
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
sensor (on evaporator)
defective.
Under 25 °C, the resistance of sensor should be 5K
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
error
OUTDOOR TEMP
Outside air temperature
sensor error
defective.
Under 25 °C, the resistance of sensor should be 5K
ROOM TEMP
Room air temperature
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
sensor error;
defective.
Under 25 °C, the resistance of sensor should be 5K
CMP TEMP
Compressor exhaust
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
temperature sensor error;
defective.
Under 25 °C, the resistance of sensor should be 50K
Water tank temperature
Sensor disconnected; Sensor was
Check the connections, the wire of sensor, or change the sensor.
sensor error
defective.
Under 25 °C, the resistance of sensor should be 5K
WARM WATER TEMP
HIGH
PRESS
(single
compressor system)
COMP.A
Compressor high
pressure protection
PRESS(double
The wire disconnected;
lack of
refrigerant;
Check the wire connection; check refrigerant quantity; Check the
water cycled pump for the room heating system; Check if the
water flow stop in the room cycle
water system contains air
compressor system)
LOW
PRESS
(single
compressor system)
COMP.B
Compressor low
The wire disconnected;
lack of
pressure protection
refrigerant;
Compressor overload
The actual current over the
Check the wire connection; check refrigerant quantity;
PRESS(double
compressor system)
CMP OVER
contactor‘s allowed current.
Compressor current too large;
ADD HEAT OVER OR FLOW
TROUBLE
Supplementary
electrical heater over
heat or water flow got
The temperature of electrical heater
over the max allowed temperature.
Check the wire connection;
Check if the water system contains air, and cause the water
temperature over high and current over large
Check the wire connection;
Check if the water system contains air or without water
Water flow too small or stopped.
problem
CMP AIR OVER
WARMWATER TEMP TOO LOW
Compressor exhaust air
Water flow too small;
Check if the water system contains air or without water
temperature over heat
Lack of refrigerant
Check the refrigerant quantity
Temperature of the water
Water tank temperature less than
tank is too low.
10 ć
A . During heat pump running, whatever mode heat pump runs,
heat pump will give an alarm with sound, at the time, heat pump will
automatically turn to water tank heating, and
then go back to previous running mode until water tank’s
temperature get to 20ć
B . During heat pump is not running, heat pump will give an alarm
with sound: WARM WATER. TOO LOW
POWER SUPPLY
Phase error
For three-phase, the phase order
reversed or wrongly connected. For
single-phase, the “ three-phase
option Port” in the circuit board is not
connected or loose.
28
Please check if the phase connections were correct.
5
Terminology and Abbreviations
Evaporate
In the evaporator, energy from the heat source is absorbed by the refrigerant passing through
the evaporator. The refrigerant turns into gas. (See ”Heat Pump Principle” on p. 4).
INTEGRAL
INTEGRAL is the heat balance of the heating system. Production of heat is regulated acc. to
a calculated heat demand value. This value is determined by comparing the actual supply
line temperature with its calculated (setpoint) value. The difference between the two values
is multiplied by the time during which the difference is active. The resul- ting value is referred
to as the integral. The integral value is automatically established when heat is being
produced. The value can be viewed in the sub-menu TEMPERATURE.
Compressor
The compressor raises temperature and pressure of the the refrigerant (See ”Heat Pump
Principle” on p.4).
Condenser
In the condenser, the refrigerant releases its heat energy to the heating circuit. (See ”Heat
Pump Principle” on p.4)
CURVE
The CURVE value will be adjusted on the control panel. The value indicates the temperature
of the water distributed to the radiators (supply line temperautre) at an outside air
temperature of 0°C.
Refrigerant
Circuit in the heat pump filled with refrigerant that by evaporation, compression, and circuit
condensation absorbs heat energy from the sytem circuit and releases it to the Heating circuit.
Radiator
Heating element
Control
T he control computer regulates the whole installation. All system settings and computer
temperature changes are stored and registered in the computer. Settings are adjusted
iav the graphic display on the control panel.
Heating circuit
The heating circuit receives heat energy from the refrigerant circuit and carries it to the water
heater or radiator/ floor coil systems. (See further”Heat Pump Principle” on p.4).
Heat curve
The heat curve is the control computer’s instrument for determining the required supply line
temperature of the heating system. Indoor temperature will be adjusted by adjustment of the
CURVE value
29
6
Default Settings
The first column of table 7 shows the parameters that are adjustable by the User. The second column shows
settings made at the factory and the third column the settings made by the installation contractor in connection
with installation of the heat pump.
Make sure that the installation contractor enters any settings made during installation that are particular for your
heat pump. This will make it easier for you when you make your own adjustments.
Table 7: Default Settings
Parameter
7
Factory setting
ROOM
20°C
OPERATION
AUTO
CURVE
40°C
MIN
22°C
MAX
70°C
CURVE 5
0°C
CURVE 0
0°C
CURVE -5
0°C
HIGH T STOP
50°C
LOW T STOP
-50°C
Individual settings by
installation contractor
References
Installation and commissioning by:
Piping installation
Date:
Company:
Name:
Phone:
Electric installation
Date:
Company:
Name:
Phone:
System Adjustment
Date:
Company:
Name:
Phone:
If these instructions are not followed during installation,operation, and maintenance, the obligations of
our company under the warranty regulations are no longer binding.
Our company reserves the right to alter any details and specifications without prior notice.
30
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