Poollux 7029600 Troubleshooting guide
Inverter Pool Heat Pump
User and Service manual
English ● French ● Dutch ● German
INDEX
CO2 Regulation (EU)
P1~P4
ENGLISH
P5~P30
FRENCH
P31~P56
DUTCH
P57~P82
GERMAN
P83~P108
1
Regulation (EU) n° 517/2014 of 16/04/14 on fluorinated greenhouse gases and
repealing Regulation (EC) n° 842/2006
Leak checks
1. Operators of equipment that contains fluorinated greenhouses gases in quantities of 5 tons of CO2, equivalent or
more and not contained in foams shall ensure that the equipment is checked for leaks.
2. For equipment that contains fluorinated greenhouse gases in quantities of 5 tons of CO2equivalent or more, but
of less than 50 tons of CO2equivalent: at least every 12 months.
Picture of the equivalence CO2
1. Load in kg and Tons amounting CO2.
Load and Tons amounting CO2
Frequency of test
From 2 to 30 kg load = from 5 to 50 Tons
Each year
Concerning the Gaz R410a, 2.39kg amounting at 5 tons of CO2, commitment to check each year.
Concerning the Gaz R32,7.41kg amounting at 5 tons of CO2, commitment to check each year.
Training and certification
1. The operator of the relevant application shall ensure that the relevant personnel have obtained the necessary
certification, which implies appropriate knowledge of the applicable regulations and standards as well as the
necessary competence in emission prevention and recovery of fluorinated greenhouse gases and handling safety
the relevant type and size of equipment.
Record keeping
1. Operators of equipment which is required to be checked for leaks, shall establish and maintain records for each
piece of such equipment specifying the following information:
a) The quantity and type of fluorinated greenhouse gases installed;
b) The quantities of fluorinated greenhouse gases added during installation, maintenance or servicing or due to
leakage;
c) Whether the quantities of installed fluorinated greenhouse gases have been recycled or reclaimed, including the
name and address of the recycling or reclamation facility and, where applicable, the certificate number;
d) The quantity of fluorinated greenhouse gases recovered
e) The identity of the undertaking which installed, serviced, maintained and where applicable repaired or
decommissioned the equipment, including, where applicable, the number of its certificate;
f) The dates and results of the checks carried out;
g) If the equipment was decommissioned, the measures taken to recover and dispose of the fluorinated
greenhouse gases.
2. The operator shall keep the records for at least five years, undertakings carrying out the activities for operators
shall keep copies of the records for at least five years.
2
Règlement (UE) n° 517/2014 du 16/04/14 relatif aux gaz à effet de serre fluorés et
abrogeant le règlement (CE) n° 842/2006
Contrôles d’étanchéité
1. Les exploitants d’équipements qui contiennent des gaz à effet de serre fluorés dans des quantités supérieures ou
égales à 5 tonnes équivalent CO2, veillent à ce que ces équipements fassent l’objet de contrôles d’étanchéité.
2. Au 1 janvier 2017 les contrôles d’étanchéité sont à effectuer au moins tous les douze mois, pour les équipements
dans des quantités supérieures ou égales à 5 tonnes équivalent CO2mais inférieures à 50 tonnes équivalent CO2.
Tableau des équivalences CO2
1. Charge en kg et Tonnes équivalant CO2.
Charge et Tonnes équivalant CO2
Fréquence du contrôle
De 2 à 30 kg de charge soit de 5 à 50 Tonnes
Tous les ans
Pour le Gaz R410a, 2.39kg équivalences à 5 tonnes de CO2 donc devoir de vérifier tous les ans.
Pour le Gaz R32, 7.41kg équivalences à 5 tonnes de CO2 donc devoir de vérifier tous les ans.
Formation et certification
1. L'exploitant veille à ce que le personnel concerné ait obtenu la certification nécessaire, qui implique une
connaissance appropriée des règlements et des normes applicables ainsi que la compétence nécessaire en termes
de prévention d'émission, de récupération des gaz à effet de serre fluorés, de manipulation sans danger pour les
contrôles d’étanchéité de l’équipement.
Tenue de registres
1. Les exploitants d’équipements qui doivent faire l’objet d’un contrôle d’étanchéité établissent et tiennent à jour,
pour chaque pièce de ces équipements, des registres dans lesquels ils consignent les informations suivantes :
a) La quantité et le type de gaz à effet de serre fluorés installées;
b) Les quantités de gaz ajoutées pendant l’installation, la maintenance ou l’entretien ou à cause d’une fuite;
c) La quantité de gaz installés qui a été éventuellement recyclée ou régénérée, y compris le nom et l’adresse de
l’installation de recyclage ou de régénération et, le cas échéant, le numéro de certificat;
d) La quantité de gaz récupérée;
e) L’identité de l’entreprise qui a assuré l’installation, l’entretien, la maintenance et, le cas échéant, la réparation ou
la mise hors service de l’équipement, y compris, le cas échéant, le numéro de son certificat;
f) Les dates et les résultats des contrôles effectués;
g) Si l’équipement a été mis hors service, les mesures prises pour récupérer et éliminer les gaz.
2. Les exploitants conservent les registres visés audit paragraphe pendant au moins cinq ans, les entreprises
exécutant les activités pour le compte des exploitants conservent des copies des registres visés au paragraphe 1
pendant au moins cinq ans.
3
Verordening (EU) nr. 517/2014 van het Europees Parlement en de Raad van 16 april
2014 betreffende gefluoreerde broeikasgassen en tot intrekking van Verordening (EC)
nr. 842/2006
Controle op lekkages
1. Exploitanten van apparatuur die gefluoreerde broeikasgassen in hoeveelheden van 5 ton CO2, zelfde aantal of meer bevatten en niet
verpakt in het isolatieschuim dragen er zorg voor dat de apparatuur wordt gecontroleerd op lekken.
2. Voor apparatuur die gefluoreerde broeikasgassen in hoeveelheden van 5 ton CO2 zelfde aantal of meer bevatten, maar minder dan
50 ton CO2-equivalent: tenminste iedere 12 maanden.
Beeld van de CO2-equivalent
1. Lading in kg en Ton van hoeveelheid CO2.
Lading en Ton van hoeveelheid CO2
Testfrequentie
Van 2 tot 30 kg lading = van 5 tot 50 Ton
Ieder jaar
Met betrekking tot Gaz R410a, 2.39kg met de hoeveelheid 5 ton CO2, toewijding aan jaarlijkese controle.
Met betrekking tot Gaz R32,7.41kg met de hoeveelheid 5 ton CO2, toewijding aan jaarlijkese controle.
Training en certificatie
1. De exploitant van de betreffende toepassing zal er voor zorg dragen dat het betrokken personeel de nodige certificering hebben
verkregen, hetgeen inhoudt voldoende kennis van de geldende voorschriften en norm te bezitten, alsmede de nodige deskundigheid in
emissiepreventie en terugwinning van gefluoreerde broeikasgassen en hanteren van de veiligheid van de betreffende type en de
omvang van de apparatuur.
Registratie
1. Exploitanten van apparatuur die verplicht zijn op lekkage te controleren, zullen registers aanmaken en bijhouden voor elk deel van
dergelijke apparatuur dat de volgende informatie bevat:
a) De hoeveelheid en het type van de geïnstalleerde gefluoreerde broeikasgassen;
b) De hoeveelheden gefluoreerde broeikasgassen toegevoegd tijdens het installeren, onderhoud of de service of als gevolg van lekkage;
c) Of de hoeveelheden van de geïnstalleerde gefluoreerde broeikasgassen zijn gerecycleerd of teruggewonnen, inclusief de naam en
het adres van de recycling- of terugwinningsinstallatie en waar van toepassing het certificaatnummer;
d) De hoeveelheid teruggewonnen gefluoreerde broeikasgassen
e) De identiteit van de onderneming die de installatie, reparatie, onderhoud uitvoert en voor zover van toepassing raparties of
verwijdering van apparatuur voor zijn rekening neemt, inclusief, in voorkomend geval, het nummer van haar certificaat;
f) De data en de resultaten van de verrichte controles;
g) Indien de apparatuur buitengebruik werd gesteld, de genomen maatregelen voor het terugwinnen en afvoeren van de gefluoreerde
broeikasgassen.
2. De exploitant zal de administratie gedurende tenminste vijf jaar bewaren, de ondernemingen die de werkzaamheden voor de
exploitanten uitvoeren, moeten tenminste vijf jaar kopieën van de registers bijhouden.
4
Verordnung (EU) Nr. 517/2014 vom 16/04/14 über fluorierte Treibhausgase und die
Verordnung (EG) zur Aufhebung Nr. 842/2006
Dichtheitsprüfung
1. Die Betreiber von den Geräte, die die fluorierte Treibhausgase in Mengen von 5 Tonnen CO2-Äquivalent oder mehr enthalten und
nicht in Schäumen enthalten, müssen sicherstellen, dass das Gerät auf Dichtheit überprüft wird.
2. Für die Geräte, die fluorierte Treibhausgase in Mengen von 5 Tonnen 5 Tonnen CO2-Äquivalent oder mehr enthalten aber weniger als
50 Tonnen CO2-Äquivalent enthalten: mindestens alle 12 Monate.
Bild der Gleichwertigkeit CO2
1. Belastung von CO2 in kg und Tonnen.
Belastung und Tonnen von CO2
Häufigkeit der Prüfung
Von 2 bei 30 kg Belastung = von 5 bei 50 Tonnen
Jedes Jahr
In Bezug auf die Gaz R410a, 2,39 kg in Höhe von 5 Tonnen CO2, Engagement für die Überprüfung jedes Jahr.
In Bezug auf die Gaz R32, 7.41 kg in Höhe von 5 Tonnen CO2, Engagement für die Überprüfung jedes Jahr.
Ausbildung und Zertifizierung
1. Die Betreiber der betreffenden Anwendung sollen dafür Sorge tragen, dass die zuständige Person die erforderliche Zertifizierung
erlangt hat, die die angemessene Kenntnisse der geltenden Vorschriften und Normen sowie die notwendige Kompetenz in Bezug auf
die Emissionsvermeidung und - verwertung von fluorierten Treibhausgasen und der Handhabungssicherheit der betreffenden Typen
und Größe der Ausrüstung beinhaltet.
Aufbewahrung der Aufzeichnungen
1. Die Betreiber von den Geräte, die auf Dichtheit überprüft werden müssen, müssen für jedes Gerät, das die folgenden Angaben
enthält, Aufzeichnungen erstellen und verwalten:
a) Die Menge und Art der installierten fluorierten Treibhausgase;
b) Die Mengen an fluorierten Treibhausgasen, die während der Installation, Wartung oder Service oder aufgrund von Leckagen
hinzugefügt werden;
c) Ob die Mengen der installierten fluorierten Treibhausgase wiederverwandt oder zurückgefordert wurden, einschließlich der Name
und Anschrift der Wiederverwendung oder Rückgewinnungsanlage und gegebenenfalls der Bescheinigungsnummer;
d) Die Menge der fluorierten Treibhausgase wiederhergestellt wird;
e) Die Identität des Unternehmens, das die Ausrüstung installiert, gewartet und gegebenenfalls repariert oder außer Betrieb hat,
gegebenenfalls einschließlich der Nummer des Zertifikats;
f) Datum und Ergebnisse der Prüfung durchgeführt werden;
g) Wenn das Gerät außer Betrieb hat, wurden die Maßnahmen zur Rückgewinnung und Beseitigung der fluorierten Treibhausgase
getroffen.
2. Die Betreiber bewahrendie Aufzeichnungen für mindestens fünf Jahre lang auf, wobei die Unternehmen, die die Tätigkeiten für
die Betreiber ausführen, die Aufzeichnungen für mindestens fünf Jahre lang aufbewahren soll.
5
Inverter Swimming Pool Heat Pump
User and Service manual
INDEX
1. Specifications
2. Dimension
3. Installation and connection
4. Accessories
5. Electrical Wiring
6. Display Controller Operation
7. Troubleshooting
8. Exploded Diagram
9. Maintenance
Thank you for using inverter swimming pool heat pump for your pool heating, it will heat your pool water and keep
the constant temperature when the air ambient temperature is at -12 to 43℃
ATTENTION: This manual includes all the necessary information with the use and the installation of your
heat pump.
The installer must read the manual and attentively follow the instructions in implementation and maintenance.
The installer is responsible for the installation of the product and should follow all the instructions of the
manufacturer and the regulations in application. Incorrect installation against the manual implies the exclusion of
the entire guarantee.
The manufacturer declines any responsibility for the damage caused with the people, objects and of the errors due
to the installation that disobey the manual guideline. Any use that is without conformity at the origin of its
manufacturing will be regarded as dangerous.
WARNING: Please always empty the water in heat pump during winter time or when the ambient temperature
drops below 0℃, or else the Titanium exchanger will be damaged because of being frozen, in such case, your
warranty will be lost.
WARNING: Please always cut the power supply if you want to open the cabinet to reach inside the heat pump,
because there is high voltage electricity inside.
WARNING: Please well keep the display controller in a dry area, or well close the insulation cover to protect the
display controller from being damaged by humidity.
- Please always keep the heat pump in the ventilation place and away from anything which could cause fire.
- Don’t weld the pipe if there is refrigerant inside machine. Please keep the machine out of the confined space
when make gas filling.
- Action of filling gas must be conducted by professional with R32 operating license.
6
1. Specifications
1.1 Technical data inverter pool heat pumps
Item No.
7029600
7029601
7029602
7029603
* Performance at Air 28℃, Water 28℃, Humidity 80%
Heating capacity
kW
7-2.2
9-2.3
14-3.2
16-3.8
Power consumption
kW
1.25-0.17
1.55-0.18
2.26-0.25
2.67-0.29
C.O.P.
13-5.6
13-5.8
13-6.2
13-6
* Performance at Air 15℃, Water 26℃, Humidity 70%
Heating capacity
kW
4.7-2.5
6.6-1.9
9.5-2.2
11.2-3
Power consumption
kW
1.02-0.35
1.43-0.27
2.07-0.31
2.43-0.42
C.O.P.
7.1-4.6
7.1-4.6
7.2-4.6
7.2-4.6
Compressor type
Inverter Compressor
Voltage
V
220~240V / 50Hz /1PH
Rated current
A
5.5
6.9
10.0
11.8
Minimum fuse
A
9
10
15
16
Advised pool volume
(with pool cover)
m³
10-25
12-33
18-66
25-85
Advised water flux
m3/h
2.5
2.8
4.0
4.6
Water pressure drop
Kpa
12
12
15
15
Heat exchanger
Twist-titanium tube in PVC
Water connection
mm
50
No. of Fan
1
Ventilation type
Horizontal
Fan speed
RPM
500-850
550-850
Power input of Fan
W
6-35
22-82
32-110
Noise level(10m)
dB(A)
≤ 41
≤ 42
≤ 43
≤ 43
Noise level(1m)
dB(A)
40-51
40-52
40-54
41-54
Refrigerant
R32
Net weight
kg
54
56
73
78
Gross weight
kg
66
68
78
83
Net dimension
mm
1008*380*577
1050*440*709
Packing dimension
mm
1095*430*705
1130*470*850
* Above data is subject to update without prior notice.
7
2. Dimension (mm)
Item nr.:7029600,7029601
Item nr.:7029602,7029603
8
3. Installation and connection
3.1 Notes
The factory supplies only the heat pump. All other components, including a bypass if necessary, must be provided
by the user or the installer.
Attention:
Please observe the following rules when installing the heat pump:
1. Any addition of chemicals must take place in the piping located downstream from the heat pump.
2. Install a bypass if the water flow from the swimming pool pump is more than 20% greater than the
allowable flow through the heat exchanger of the heat pump.
3. Always place the heat pump on a solid foundation and use the included rubber mounts to avoid vibration
and noise.
4. Always hold the heat pump upright. If the unit has been held at an angle, wait at least 24 hours before
starting the heat pump.
3.2 Heat pump placement
The unit will work properly in any desired location as long as the following three items are present:
1. Fresh air – 2. Electricity – 3. Swimming pool filters
The unit may be installed in virtually any outdoor location as long as the specified minimum distances to other
objects are maintained (see drawing below). Please consult your installer for installation with an indoor pool.
Installation in a windy location does not present any problem at all, unlike the situation with a gas heater (including
pilot flame problems).
ATTENTION: Never install the unit in a closed room with a limited air volume in which the air expelled from the unit
will be reused, or close to shrubbery that could block the air inlet. Such locations impair the continuous supply of
fresh air, resulting in reduced efficiency and possibly preventing sufficient heat output.
See the drawing below for minimum dimensions.
3.3 Distance from your swimming pool
The heat pump is normally installed within a perimeter area extending 7.5 m from the swimming pool. The greater
the distance from the pool, the greater the heat loss in the pipes. As the pipes are mostly underground, the heat
loss is low for distances up to 30 m (15 m from and to the pump; 30 m in total) unless the ground is wet or the
9
groundwater level is high. A rough estimate of the heat loss per 30 m is 0.6 kWh (2,000 BTU) for every 5 ºC
difference between the water temperature in the pool and the temperature of the soil surrounding the pipe. This
increases the operating time by 3% to 5%.
3.4 Check-valve installation
Note: If automatic dosing equipment for chlorine and acidity (pH) is used, it is essential to protect the heat pump
against excessively high chemical concentrations which may corrode the heat exchanger. For this reason, equipment
of this sort must always be fitted in the piping on the downstream side of the heat pump, and it is recommended to
install a check-valve to prevent reverse flow in the absence of water circulation.
Damage to the heat pump caused by failure to observe this instruction is not covered by the warranty.
3.5 Typical arrangement
Note: This arrangement is only an illustrative example.
10
3.6 Adjusting the bypass
How to get the optimum water flow:
Please turn on the heat pump under heating function, firstly close the by-pass then open it slowly to start the heat
pump (the machine can't start running when the water flow is insufficient).
Continue to adjust the by-pass, at the meantime to check the Inlet water temp. & Outlet water temp., it will be
optimum when the difference is around 2 degree.
3.7 Electrical connection
Note: Although the heat pump is electrically isolated from the rest of the swimming pool system, this only
prevents the flow of electrical current to or from the water in the pool. Earthing is still required for protection
against short-circuits inside the unit. Always provide a good earth connection.
Before connecting the unit, verify that the supply voltage matches the operating voltage of the heat pump.
It is recommended to connect the heat pump to a circuit with its own fuse or circuit breaker (slow type; curve D)
and to use adequate wiring.
Connect the electrical wires to the terminal block marked ‘ POWER SUPPLY ’.
A second terminal block marked ‘WATER PUMP ’ is located next to the first one. The filter pump switch(24V) can be
connected to the second terminal block here. This allows the filter pump operation to be controlled by the heat
pump or the extra dry contact.
Note: In the case of three-phase models, swapping two phases may cause the electric motors to run in the reverse
direction, which can lead to damage. For this reason, the unit has a built-in protective device that breaks the circuit
if the connection is not correct. If the red LED above this safety device lights up, you must swap the connections of
two of the phase wires.
3.8 Initial operation
Note: In order to heat the water in the pool (or hot tub), the filter pump must be running to cause the water to
circulate through the heat pump. The heat pump will not start up if the water is not circulating.
Out In
Heat Pump
Use the following procedure to adjust
the bypass:
1.Valve 1 wide open. Valve 2 &
valve 3 closed.
2.Slowly open valve 2 & valve 3 by
half, then close the valve 1 slowly
to increase the water flow to valve 2
& valve 3.
3. If it shows ‘ON’or ‘EE3’on
display, it means the water flow into
heat pump is not enough, then you
need adjust the valves to increase
the water flow through the heat
pump.
To pool
From pool
11
After all connections have been made and checked, carry out the following procedure:
1. Switch on the filter pump. Check for leaks and verify that water is flowing from and to the swimming pool.
2. Connect power to the heat pump and press the On/Off button on the electronic control panel. The unit will
start up after the time delay expires .
3. After a few minutes, check whether the air blowing out of the unit is cooler.
4. When turn off the filter pump , the unit should also turn off automatically , if not, then adjust the flow switch.
Depending on the initial temperature of the water in the swimming pool and the air temperature, it may take
several days to heat the water to the desired temperature. A good swimming pool cover can dramatically reduce
the required length of time.
Water Flow Switch:
It is equipped with a flow switch for protecting the HP unit running with adequate water flow rate .It will turn on wh
en the pool pump runs and shut it off when the pump shuts off. If the pool water level higher than 1 m above or b
elow the heat pump’s automatic adjustment knob, your dealer may need to adjust its initial startup.
Time delay - The heat pump has a built-in 3-minute start-up delay to protect the circuitry and avoid excessive
contact wear. The unit will restart automatically after this time delay expires. Even a brief power interruption will
trigger this time delay and prevent the unit from restarting immediately. Additional power interruptions during this
delay period do not affect the 3-minute duration of the delay.
3.9 Condensation
The air drawn into the heat pump is strongly cooled by the operation of the heat pump for heating the pool water,
which may cause condensation on the fins of the evaporator. The amount of condensation may be as much as
several litres per hour at high relative humidity. This is sometimes mistakenly regarded as a water leak.
3.10 Operating modes for optimal use
- POWERFUL: Used primarily at the beginning of the season because this mode allows very rapid temperature rise
- SMART: The heat pump has completed its primary task, in this mode; the heat pump is in a position to maintain
the pool water in an energy efficient manner. By automatically adjusting speed of compressor and fan the heat
pump delivers a better return.
- SILENT: In the summer months when the heat output is minimal required, the heat pump in this mode is even
more profitable. Added benefit; when the heat pump heats. It goes with minimal noise load.
12
4. Accessories
4.1 Accessories list
Anti-vibration base, 4 pcs
Draining jet, 2 pcs
10M Signal wire, 1 pc
Water drainage pipes, 2 pcs
4.2 Accessories Installation
Anti-vibration bases
1. Take out 4 Anti-vibration bases
2. Put them one by one on the bottom of
machine like the picture.
Draining jet
1. Install the draining jet under the
bottom panel
2. Connect with a water pipe to drain out
the water.
Note: Lift the heat pump to install the
jet. Never overturn the heat pump, it
could damage the compressor.
13
Water Inlet & outlet junction
1. Use the pipe tape to connect the
water Inlet & outlet junction onto the
heat pump
2. Install the two joints like the picture
shows
3. Screw them onto the water Inlet &
outlet junction
Cable wiring
1. Open the terminal cover
2. Fix the power supply wire on joints
Water pump wiring
1. Open the terminal cover
2. With the connector 1 and 2 you can
pilot the water filtration through the
timer of the filtration (dry contact)
14
5. Electrical Wiring
5.1 SWIMMING POOL HEAT PUMP WIRING DIADRAM
7029600,7029601,7029602,7029603
15
NOTE:
(1)Above electrical wiring diagram only for your reference, please subject machine posted the wiring diagram.
(2)The swimming pool heat pump must be connected ground wire well, although the unit heat exchanger is
electrically isolated from the rest of the unit .Grounding the unit is still required to protect you against short circuits
inside the unit .Bonding is also required.
(3)It is recommended that your pool filtration pump and your heat pump are wired independently.
Wiring your pool pump into the heat pump will result in your filtration being switched off once the pool water
has reached temperature.
Only wire the pool pump through the heat pump if you have a pool pump for heating only that is independent to yo
ur pool filtration system.
Disconnect: A disconnect means (circuit breaker, fused or un-fused switch) should be located within sight of and
readily accessible from the unit .This is common practice on commercial and residential heat pumps. It prevents
remotely-energizing unattended equipment and permits turning off power at the unit while the unit is being
serviced.
5.5 Installation of the display deportee
Photo(1) Photo(2) Photo(3) Photo(4) Photo(5)
- The side with plug connects with the control panel (photo1)
- The other side of the signal wire. (photo2)
- Open the wiring panel and put the side without plug through the electrical box. (photo3,4)
- Insert the wiring into the disignated position (code:COM 1 or COM-L) on the PC board. (photo5)
6. Main interface
16
6.1. The Icon definition and operation
6.1.1 Click the to turn on or off the heat pump
6.1.2 Click to switch the working mode: Heating mode(setting range from 6℃-41℃), Cooling
mode(setting range from 6℃-35℃), Auto mode(setting range from 6℃-41℃) .
The heating icon flashes under defrosting mode.
6.1.3 Click to switch the running mode.
In heating or cooling mode, there are three running modes (Silent, Smart, Powerful) for options.
While in Auto mode, its default running mode is Smart.
6.1.4 Click the water temp. zone, IN, OUT and SET will display in order by each click.
You can set the desired water temperature by sliding up and down the digits (6-41) when SET temp. shows.
6.1.5 Click to set the time, it could be automatically synchronized with the network time if network
connection.
6.1.6. If error code occurs, it will display at the upper left.
6.1.7 If it is connected to WIFI module, upper right icon will be long bright.
6.2 Click to enter the Parameter query or setting, Temp & COP curve, Timer ON/OFF and Error code.
6.2.1 Parameter query
There are four interfaces (Parameter A-D) including d0 to d11, which is listed as below. Click from the screen’s
top & right side to switch to next parameter interface.
17
Code
Condition
Scope
Remark
d0
IPM mould temperature
0-120℃
Real testing value
d1
Inlet water temp.
-9℃~99℃
Real testing value
d2
Outlet water temp.
-9℃~99℃
Real testing value
d3
Ambient temp.
-30℃~70℃
Real testing value
d4
Frequency limitation code
0,1,2,4,8,16
Real testing value
d5
Piping temp.
-30℃~70℃
Real testing value
d6
Gas exhaust temperature
0℃~C5℃(125℃)
Real testing value
d7
Step of EEV
0~99
N*5
d8
Compressor running frequency
0~99Hz
Real testing value
d9
Compressor current
0~30A
Real testing value
d10
Current fan speed
0-1200 (rpm)
Real testing value
d11
Error code for last time
All error code
6.2.2 Temp & COP curve
Click to check the Temp & COP curve. Only after the heat pump runs 4 minutes under heating mode, COP curve
can be showed;
6.2.3 Parameter setting
There are also four interfaces (Parameter A-D) as below pictures shows. Page up or down same as parameter query.
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