HYBRID STOR 430-550 750-1000 COMBINATION STORAGE CYLINDERS TRIPLE COIL INSTALLATION MANUAL

HYBRID STOR 430-550 750-1000 COMBINATION STORAGE CYLINDERS TRIPLE COIL INSTALLATION MANUAL

2INSTALLATION MANUAL Dear Installer, Thank you for choosing a BERETTA HYBRID STOR, combination storage cylinder. You have purchased a modern and quality product. This instruction manual contains important instructions and precautions that must be observed to ensure the trouble-free installation and efficient functioning of your BERETTA HYBRID STOR combination storage cylinder. Please accept our renewed thanks for your purchase. Beretta RANGE MODEL CODE HYBRID STOR 430 20051862 HYBRID STOR 550 20051863 HYBRID STOR 750 20051864 HYBRID STOR 1000 20051866 The following symbols are used in this manual: b CAUTION! = Indicates actions that require caution and adequate preparation a STOP! = Identifies actions that you MUST NOT do This manual, Code 20051873 - Rev. 1 (11/13) is made up of 24 pages.

CONTENTS 1 SAFETY PRECAUTIONS... 4 2 PRODUCT DESCRIPTION... 5 2.1 Description...5 2.2 Identification...5 2.3 Design...6 2.4 Technical specifications...7 2.5 Accessories...10 2.6 Water circuit...11 2.7 Dimensions and water connections...12 3 INSTALLATION... 14 3.1 Unpacking the product...14 3.2 Handling...14 3.3 Place of installation of the combined storage cylinder...15 3.4 Installation in older systems and systems requiring modernisation...16 3.5 Location of probes...16 3.6 Preparing for initial start-up...17 3.7 Initial start-up...17 3.8 Checks during and after initial start-up...17 3.9 Preparing for extended periods of disuse...18 3.10 Maintenance...19 3.11 Cleaning...19 4 TROUBLESHOOTING... 20 3

4INSTALLATION MANUAL 1 SAFETY PRECAUTIONS b bas soon as you open the packaging, check immediately that the contents are all present and undamaged. Contact the reseller from whom you purchased the product if you notice any problems. b bthis BERETTA HYBRID STOR combination storage cylinder must be installed by a qualified installer. On completion of the installation, the installer must issue the owner with a declaration of conformity confirming that the installation has been completed to the highest standards in compliance with the instructions provided in this instruction manual, and that it conforms to all applicable laws and standards. bbthis BERETTA HYBRID STOR combination storage heater must only be used for the purpose specified and for which it is designed. The manufacturer declines all responsibility, contractual or other, for damage to property or injury to persons or animals caused by improper installation, adjustment, maintenance or use. b bif you notice any water leaking from the cylinder, disconnect it immediately from the mains electricity supply, shut off the water supply, and notify your Technical Assistance Centre or a qualified technician immediately. b bthis combination storage cylinder must be serviced at least once a year. If the combination storage cylinder is not going to be used for an extended period of time, prepare it for shut-down as follows: - Turn the system s main power switch OFF - Drain the solar water circuit - Close the fuel cock and heating water cock - Drain the central heating circuit and domestic hot water circuit if there is any risk of freezing b banti-freeze (propylene glycol) is available separately and must be mixed with water in a percentage varying from 30% to 50%. b bthis instruction manual is an integral part of the appliance. It must be kept safe and must ALWAYS accompany the appliance, even if it is sold to another owner or transferred to another user or to another installation. If you damage or lose this manual, order a replacement immediately from your local Technical Assistance Centre. The operation of any appliance that uses electrical power and water demands that a number of fundamental safety precautions be respected. In particular: a ado not allow children or infirm persons to operate the combination storage cylinder unsupervised. a ado not touch the combination storage cylinder when barefoot or wet. a anever clean or service the combination storage cylinder without first disconnecting it from the mains electricity supply by turning the main power switch and the control panel switch OFF. a ado not interfere with any control devices without specific authorisation and instructions from the manufacturer. a ado not leave packaging material within the reach of children, since it can become a potential hazard. a aif the pressure in the solar heating circuit drops, do not top up with water alone, since this increases the risk of damage from freezing. a ado not use connections or safety devices or fittings (expansion vessels, pipes, insulation) that are not specifically designed and tested for use in solar heating installations.

2 PRODUCT DESCRIPTION 2.1 Description HYBRID STOR triple coil combination storage cylinders come in the form of an inertial (buffer) storage cylinder with three internal coils. The bottom coil receives heat from the solar circuit while the top coil receives heat from the boiler. A third coil in stainless steel produces domestic hot water. The most important technical features of these combination storage cylinders are: The cylinder and coils are specially designed and shaped for optimum performance in terms of stratification, heat exchange and replenishment times. The stainless steel, rapid heat exchange coil for domestic hot water production is bacteriologically inert and guarantees maximum hygiene and reduced lime scale deposits. Water fittings are available at different heights, permitting different boilers to be used without reducing the stratification effect. CFC-free polyurethane insulation and an elegant external casing reduce heat loss and improve efficiency. Excellent flexibility permits use in both high and low temperature systems. Dimensions are extremely compact thanks to the clever combination of an inertial storage cylinder and domestic hot water coil. HYBRID STOR triple coil combination storage cylinders can be connected to a special solar controller and can be integrated in solar heating systems in which boilers or water heaters serve as auxiliary heat generators 2.2 Identification HYBRID STOR combination storage cylinders are identified by three plates: 5 Data plate This lists the technical specifications and performance of the product. Product identification plate This states the name of the product. Beretta Caldaie Via Risorgimento, 13 23900 Lecco (LC) BOLLITORE SOLARE BALLON SOLAIRE Modello Modele Matricola Fabrication 067659IF Codice Code Anno Année Massima potenza assorbita sup.[t Primario 80 C] Puissance absorbée serpentin sup.[t Primaire 80 C] Portata specifica sup.[ T 35 C] Débit specifique sup. [ T 35 C] kw l/1' Massima potenza assorbita inf. [T Primario 80 C] Maximum puissance absorbée inf. [T Primaire 80 C] Portata specifica inf. [ T 35 C] Débit specifique inf. [ T 35 C] kw l/1' Press. esercizio max. Pression service max. Capacità del bollitore Capacité ballon Potenza elettric assorbita Puissance élect. absorbée Alimentazione elettrica Alimentat. élect. bar l W V-Hz Collegamento di terra obbligatorio - Raccordement a la terre obligatoire Beretta Caldaie Via Risorgimento, 13 23900 Lecco (LC) Fabrication Modello Modele Pot.ass.sup.max. Puiss.abs.sup.maxi Pot.ass.inf.max. Puiss.abs.inf.maxi Serial number plate This specifies the serial number, model, consumption and capacity. kw kw bbif these plates or any other means of clearly identifying the product are defaced, removed or lost, proper installation and servicing may be rendered difficult.

6INSTALLATION MANUAL 2.3 Design 12 11 10 9 8 7 6 5 4 3 13 14 7 15 16 17 18 19 20 21 22 2 1 23 1 - Insulation 2 - Domestic cold water inlet 3 - Inertial storage cylinder 4 - Bottom coil 5 - Temperature sensor socket 6 - Sleeve for electric heating element (not supplied) 7 - Boiler temperature sensor socket 8 - Top coil 9 - Storage cylinder temperature gauge 10 - Domestic hot water outlet 11 - DHW coil 12 - Vent valve fitting 13 - Inlet from boiler 14 - Inlet from 2nd boiler 15 - Central heating outlet 16 - Return to 2nd boiler 17 - Inlet from solar collector 18-50 C water return 19 - Return to solar collector 20 - Inlet from condensing boiler / 50 C water return 21 - Solar controller temperature sensor socket 22 - Return to condensing boiler / Filling 23-30 C water return / Drain

2.4 Technical specifications DESCRIPTION HYBRID STOR 430 550 750 1000 Type of inertial storage cylinder Non vitrified Inertial storage cylinder layout vertical Heat exchanger layout vertical Primary coils Smooth steel pipe DHW coil Corrugated pipe in AISI 316 L stainless steel Inertial storage cylinder capacity 407 520 732 898 l Diameter with insulation 810 810 1000 1000 mm Diameter without insulation 650 650 790 790 mm Height 1650 2000 1855 2180 mm Insulation thickness 70 90 mm Temperature sensor socket diameter (boiler and solar system) 16 Ø mm Temperature sensor socket diameter 8 Ø mm Temperature gauge sensor socket diameter 1/2" M Ø Top primary coil water capacity 7,1 8,0 10,0 10,0 l Bottom primary coil water capacity 11,0 12,8 17,4 19,8 l DHW coil water capacity 23,6 23,6 30,4 30,4 l Top primary coil heat exchange surface area 1,17 1,31 1,72 1,72 m 2 Bottom primary coil heat exchange surface area 1,80 2,10 2,90 3,34 m 2 DHW coil heat exchange surface area 4,5 4,5 5,8 5,8 m 2 Power absorbed by top primary coil (*) 25,0 26,0 30,0 30,0 kw Power absorbed by bottom primary coil (*) 52,0 62,0 76,0 92,0 kw Domestic hot water production (*) top primary coil 620 750 l/h Maximum working pressure of inertial storage cylinder 3 5 bar Maximum working temperature of inertial storage cylinder 99 C Maximum working pressure of primary coils 10 bar Maximum working pressure of DHW coil 6 bar Maximum working temperature of primary coils 99 C Maximum working temperature of DHW coil 99 C Recommended surface area of solar panel 6 8 12 14 m 2 Net weight 168 195 239 269 kg Gross weight (with packaging) 189 215,5 254 284,4 kg 7 (*) With T = 35 C and primary temperature = 80-60 C. Performance achieved with heat generator of suitable power, adjusted for a flow rate of 3000 l/h.

Performance of KOMBISOLAR 3S combination storage cylinder with boiler connected in: 8INSTALLATION MANUAL CONFIGURATION A DESCRIPTION HYBRID STOR Water draw in 10 minutes with mean T of 35 and primary storage HYBRID tank STOR at: 80 C 2500 2900 4000 4000 l Generatore 70 C 2200 2400 3400 3400 l (*) With T = 35 C and primary temperature = 80 C. Performance achieved with boiler of suitable power configured for a flow rate of 3000 l/h. CONFIGURATION HYBRID B STOR HYBRID STOR Boiler Generatore 430 550 750 1000 Domestic hot water production (*) 3250 3300 3150 3150 l/h 90 C 3600 4000 4800 4800 l 60 C 1300 1700 1700 1700 l Generatore HYBRID STOR Boiler Generatore DESCRIPTION HYBRID STOR 430 550 750 1000 Domestic hot water production (*) 2200 2400 1800 1800 l/h Domestic hot water production (**) 1650 1850 1450 1450 l/h Water draw in 10 minutes with mean T of 35 and primary storage tank at: 90 C 2100 2300 2500 2500 l 80 C 1600 1800 2100 2100 l 70 C 1200 1300 1700 1700 l 60 C 800 1000 1200 1200 l (*) With T = 35 C and primary temperature = 80 C. Performance achieved with boiler of suitable power configured for a flow rate of 3000 l/h. (**) With T = 35 C and primary temperature = 80 C. Performance achieved with boiler of suitable power configured for a flow rate of 1500 l/h.

Pressure drop HYBRID STOR TOP COIL 900 800 750-1000 PRESSURE DROP (mbar) 700 600 500 400 300 200 430-550 100 0 0 1000 2000 3000 4000 5000 6000 FLOW RATE (l/h) Pressure drop HYBRID STOR BOTTOM COIL 9 PRESSURE DROP (mbar) 900 800 700 600 500 400 300 200 1000 750 550 430 100 0 0 1000 2000 3000 4000 FLOW RATE (l/h)

INSTALLATION MANUAL Pressure drop HYBRID STOR DHW COIL PRESSURE DROP (mbar) 700 600 500 400 300 200 100 0 0 1000 2000 3000 4000 5000 FLOW RATE (l/h) 550 430 750-1000 2.5 Accessories 10 The following accessories are available, to be ordered separately. ACCESSORY CODE Single phase heating element kit, 1,5 kw 1" 1/2 20015431 Single phase heating element kit, 2,2 kw 1" 1/2 4383271 Single phase heating element kit, 3 kw 1" 1/2 4383272 Three phase heating element kit, 3,8 kw 1" 1/2 20020707 Connection hose + bracket for 18 litre expansion vessel 1150499

2.6 Water circuit MC 80 C UAC MC2 70 C UR RE M R RC2 60 C R50 MCON / R50 50 C EAF RCON / CB 40 C 11 R30 30 C SB UAC - Domestic hot water outlet EAF - Domestic cold water inlet RE - Sleeve for electric heating element M - Inlet from solar collector R - Return to solar collector MC - Inlet from boiler MC2 - Inlet from 2nd boiler UR - Central heating outlet RC2 - Return to 2nd boiler R50-50 C water return MCON - Inlet from condensing boiler RCON - Return to condensing boiler CB - Inertial storage cylinder filling SB - Inertial storage cylinder drain R30-30 C water return bbthe denomination of the water fittings refers to a theoretical system configuration. b b HYBRID STOR combination storage cylinders are delivered without a filling pump. A suitably rated pump must be provided and installed separately. For further information on the recommended solar heating circuit flow rate, see the installation instructions for the water outlet and return kit.

INSTALLATION MANUAL 2.7 Dimensions and water connections BERETTA HYBRID STOR combination storage cylinders can be connected to even previously installed hot water generators provided they are of adequate output power, but care must be taken to ensure correct water flow directions. They can also be easily integrated in solar heating systems. Water fittings have the following specifications: UAC VS Q P M R MC MC2 UR RC2 R50 MCON N O 12 RCON SB C A D H I B L EAF E F G UAC - Domestic hot water out (Ø 1 1/4 F) EAF - Domestic cold water in (Ø 1 1/4 F) M - Inlet from solar collector (Ø 1 M) R - Return to solar collector (Ø 1 M) MC - Inlet from boiler (Ø 1 1/4 M) MC2 - Inlet from 2nd boiler (Ø 1 F) UR - Central heating outlet (Ø 1 F) RC2 - Return to 2nd boiler (Ø 1 F) R50-50 C water return (Ø 1 1/4 M) MCON - Inlet from condensing boiler (Ø 1 F) RCON - Return to condensing boiler (Ø 1 F) SB - Inertial storage cylinder drain (Ø 1 1/4 M) VS - Vent valve fitting (Ø 1 F) DESCRIPTION HYBRID STOR 430 550 750 1000 A 276 494 364 364 mm B 1312 1657 1419 1744 mm C 177 177 75 75 mm D 349 349 344 344 mm E 699 899 599 599 mm F 809 1009 899 979 mm G 834 929 855 925 mm H 919 1129 994 1111 mm I 1059 1309 1089 1209 mm L 1289 1544 1359 1476 mm N 1410 1756 1706 2031 mm O 1650 2000 1855 2180 mm P 405 405 495 495 mm Q 810 810 1000 1000 mm Net weight 168 195 239 269 mm We recommend that you install isolating valves in the outlet and return lines.

b bthe DHW production coil must be filled and pressurised before the inertial storage cylinder is filled. bbin very hard water areas, use suitably treated water to fill the inertial storage cylinder. bbmake sure that the combination storage cylinder is full of water before starting up the solar heating system. bbif the combination storage cylinder is installed in systems that operate at pressures in excess of 4 bar, fit a pressure reducer. bba non-return valve must be fitted at the top of the inertial storage cylinder to prevent natural circulation developing. bbtake care when opening the solar heating circuit s vent valves. Risk of burns! bbmake sure that the solar circuit s expansion vessel is able to withstand high temperatures and that its membrane is resistant to the water-glycol mix. bbthe domestic hot water system MUST INCLUDE an expansion vessel, safety valve, automatic vent valve and combination storage cylinder drain cock. bbthe safety valve must be connected to a suitable collection and drain system. The manufacturer declines all responsibility for damage caused by water escaping from the safety valve. bbuse a thermostatic mixer valve to limit the domestic hot water outlet temperature. bbif the pressure in the solar heating circuit drops, do NOT top up with water but use the proper water-glycol mix. Risk of freezing! bball piping, collectors, heat exchangers and other devices in the circuit must be subjected to proper hydraulic seal testing. bbthe choice of system components and the method of their installation are left up to the installer. Installers must use their expertise to ensure proper installation and functioning in compliance with all applicable legislation. The lower the temperature of the heating return (<40 C), the greater the efficiency of the solar heating system. bbmake sure that all components chosen for use with the system are able to withstand the thermal load involved. In the summer months, when the solar heating system is not used for the central heating, steam can form inside the collectors, and temperatures can exceed 120 C even near the combination storage cylinder. bbthe size of the combination storage cylinder must be chosen to suit the solar heating system. It must be big enough to store excess heat after the DHW production coil has been heated without being too big. bbinsulate the pipes from the inertial storage cylinder to avoid heat loss. 13

INSTALLATION MANUAL 3 INSTALLATION 3.1 Unpacking the product HYBRID STOR combination storage cylinders are delivered in a single package consisting of a triple wall cardboard box (HYBRID STOR 430-550) or a plastic bag (HYBRID STOR 750-1000) on a wooden pallet. The following items are delivered in a plastic bag inside the packaging: instruction manual labels with bar code hydraulic test certificate - N 3 adjustable feet (models 430-550) - N 4 adjustable feet (models 750-1000). bbthe instruction manual is an integral part of the combination storage cylinder. Once located, read it thoroughly and keep it safe. H A HYBRID STOR 430-550 B H HYBRID STOR 750-1000 14 A B DESCRIPTION HYBRID STOR 430 550 750 1000 A x B x H 850 x 850 x 1850 850 x 850 x 2200 1040 x 1040 x 1975 1040 x 1040 x 2300 mm Gross weight 189 215,5 254 284,5 Kg 3.2 Handling The storage cylinder, complete with pallet, must be moved using a fork lift of suitable lifting capacity. Proceed as follows to remove the storage cylinder from the pallet. - Remove the brackets (1) 1 1 1 1

- Place a platform of about half the height of the pallet near the storage cylinder. Make sure the platform is able to support the weight of the storage cylinder - Carefully rotate and slide the storage cylinder off the pallet on to the platform - Make sure that the storage cylinder is perfectly stable, and then remove the pallet - Carefully rotate and slide the storage cylinder off the platform on to the floor - Remove the platform. Position the storage cylinder as required. 17 Fit the feet provided into the holes in the bottom of the storage cylinder and adjust as necessary to compensate for any unevenness in the floor. 15 6 2 3 The casing and insulation can be removed to facilitate access into the place of installation. To do so, proceed as follows. - Remove the plug (2). Unscrew the two fixing screws and remove the top insulation section (3). - Remove the protective fitting plugs (4). - Unzip the plastic cover (5). - Remove the insulation shells (6). Reverse the above steps to fit the insulation again. 5 4 b Make sure that the insulation shells (7) are securely fixed in place by straps before fitting the plastic cover. Use a strap wrench if necessary. b Wear suitable personal protective equipment and use suitable safety devices. a Do not dispose of packaging material into the environment, or leave it within the reach of children, since it can become a potential hazard. Dispose of packaging material in compliance with applicable legislation.

INSTALLATION MANUAL 16 3.4 Place of installation of the combined storage cylinder HYBRID STOR combination storage cylinders can be installed in any room where there is no specific requirement for an electrical protection rating higher than IP X0D. bbrespect the minimum specified installation distances to ensure correct installation and access for maintenance. 3.5 Installation in older systems and systems requiring modernisation When installing HYBRID STOR combination storage cylinders in old systems or systems requiring modernisation, always perform the following checks: Make sure that the system is fitted with safety and control devices in accordance with applicable legislation and standards. Make sure that the circuit has been flushed out to remove all sludge and lime scale, and has been vented and seal tested. Make sure that a suitable water treatment system is installed if the quality of the supply/ recirculation water so demands. (Refer to the reference values listed in the table alongside). 0,3 m 0,4 m 0,6 m 0,4 m REFERENCE VALUES ph 6-8 Electrical conductivity below 200 mv/cm (25 C) Chlorine ions below 50 ppm Sulphuric acid ions below 50 ppm Total iron below 0,3 ppm Alkalinity M below 50 ppm Total hardness below 35 F Sulphur ions none Ammonia ions none Silicon ions below 30 ppm 3.6 Location of probes HYBRID STOR combination storage cylinders incorporate probe wells for fitting the solar controller and boiler probes. Make sure that these probes are inserted all the way. bbinstallers are responsible for all connections to the boiler or hot water generator. Installers must ensure proper installation and functioning in compliance with all applicable legislation. T - Temperature gauge sensor socket (Ø 1/2" M) SC - Boiler temperature sensor socket (Ø 16 mm) S - Temperature sensor socket (Ø 8 mm) SRS - Solar controller temperature sensor socket (Ø 16 mm) T SC S SC SRS

3.7 Preparing for initial start-up b The DHW production coil must be filled and pressurised before the inertial storage cylinder is filled. It is essential to perform the following checks before starting up or testing the functioning of the combination storage cylinder. In particular, check that: The supply cocks are all open in the domestic water circuit. The water connections to the boiler and solar heating system have been made correctly. The solar heating circuit has been correctly flushed out and filled with water-glycol mix, and all air has been bled out of the circuit. 3.8 Initial start-up Heat is only transferred from the solar heating circuit to the combination storage cylinder when the temperature of the solar collectors exceeds that in the combination storage cylinder. It is therefore temperature differential rather than absolute temperature that is important in controlling solar water heating systems. Set the required temperature differential between the collector and combination storage cylinder (see the instruction manual for the controller). Start up the boiler to provide auxiliary heating for the combination storage cylinder. 3.9 Checks during and after initial start-up 17 Once the system has been started up, perform the following checks: Solar heating circuit Check that the flow rate in the solar heating circuit is equivalent to 30 l/h for each m 2 of collector area - - Check that the solar heating circuit has been properly bled

INSTALLATION MANUAL Check that the cold pressure of the system is approximately 3 bar Check that the safety valve operates at 6 bar Check that all pipes in the water circuit have been insulated in conformity to relevant standards. Heating circuit Check that the heating circuit has been properly bled Provided all the above checks have been completed successfully, re-start the boiler connected to the storage cylinder and check the temperature settings and domestic hot water draw rate. 3 2 4 1 5 0 6 18 3.10 Preparing for extended periods of disuse If the combination storage cylinder is not going to be used for an extended period of time, prepare it for shut-down as follows: Shut down the boiler as instructed in its own manual Turn the system s main power switch OFF Drain the solar water circuit Close the fuel cock and heating water cock. bbdrain the domestic hot water (and central heating) circuit if there is any risk of freezing. Contact your local Technical Assistance Centre if you encounter any problems in completing the above procedure.

3.11 Maintenance Scheduled maintenance is essential for the safety, efficiency and long working life of your combination storage cylinder. Have your combination storage cylinder serviced either by a Technical Assistance Centre or by a qualified professional at least once a year. Perform the following operations before beginning any maintenance: Switch the electricity supply to the storage cylinder s valve group and to any associated boiler OFF at the main switch and at the control panel Close the shut-off cocks for the domestic hot water circuit Drain the combination storage cylinder. 3.12 Cleaning 19 EXTERNAL CLEANING Clean the outside of the combination storage cylinder s insulation with a soft cloth damped in soapy water. To remove stubborn marks, use a cloth damped in a 50% mix of water and denatured alcohol or a suitable cleaning product. Dry the combination storage cylinder after cleaning it. aado not use abrasive products, petrol or triethylene.

INSTALLATION MANUAL 4 TROUBLESHOOTING PROBLEM Little hot water is produced Water temperature is low CAUSE The supply pressure is too high The flow rate is too high There are blockages or deposits in the domestic hot water circuit The pump is malfunctioning The water temperature is low in the heat generator or solar heating system The pump is malfunctioning CORRECTIVE ACTION Fit a pressure limiter Fit a flow reducer Check and clean as necessary Check the pump Check the setting and condition of the thermostat Check the pump There is lime scale or sludge in the tank Check and clean as necessary 20 There is air in the primary circuit Bleed the circuit Replenishment times are too long The water temperature in the heat generator or solar heating system is low Check the setting of the thermostat The filling pump is malfunctioning Check the pump There is air in the circuit Bleed the circuit

PROBLEM Solar heating system is inefficient CAUSE There is air in the circuit CORRECTIVE ACTION Bleed the circuit The flow rate is too low or too high Make sure that the flow rate corresponds to about 30l/h per m 2. Pressure is low Check that the cold pressure of the system is approximately 3 bar The combination storage cylinder does not reach the set temperature The solar controller needs programming Make sure that the T between the collector and the combination storage cylinder is not too high or too low Set a T of 8-10 C There is lime scale or sludge in the tank Check and clean as necessary The flow rate is too high Reduce pump speed and turn the flow rate adjustment screw on the valve group to set a flow rate of 30l/h per m 2 of collector area 21 The pump does not work, even if the collector probe detects a collector temperature higher than that in the combination storage cylinder Maximum temperature has been exceeded in the collector or in the combination storage cylinder There is no electrical power The solar controller has reached maximum temperature and stopped the pump The pump will start working again as soon as the temperature drops in the collectors Check the safety devices and electrical connections The temperature differential is too great for the pump to operate, or the controller is not working Check the controller and the temperature sensor, or reduce the temperature differential setting The combination combination storage cylinder loses a lot of heat overnight There is natural circulation to the collectors Make sure that the non-return valve is sealed and closes properly Replace it if necessary

INSTALLATION MANUAL 22

Cod. 20051873 Via Risorgimento, 13-23900 Lecco (LC) Servizio Clienti 199.13.31.31* Assistenza Tecnica Numero Unico 199.12.12.12* www.berettaclima.it The manufacturer strives to continuously improve all products. Appearance, dimensions, technical specifications, standard equipment and accessories are therefore liable to modification without notice.