System DiagramSolvisMax
Connection Diagrams and System Diagrams for the SolvisMax System
Wärme. Leben. Zukunft.
• Gas and oil• District heating
• SolvisLino, third-party boiler• SolvisTeo
• SolvisVaero
2 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
Contents 1 Information About These Instructions ............................................................................................................. 3
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler ................................................................. 4
2.1 SolvisMax Gas and Öl ............................................................................................................................................ 4 2.1.1 Basic equipment ......................................................................................................................................... 4 2.1.2 East/west roof .............................................................................................................................................. 6 2.1.3 Solid fuel boiler ............................................................................................................................................ 8 2.1.4 Swimming pool .......................................................................................................................................... 10 2.1.5 Additional storage tank ............................................................................................................................ 12
2.2 SolvisMax Fernwärme (with district heating) .................................................................................................... 14 2.3 SolvisMax Solo with SolvisLino 4 ....................................................................................................................... 16
2.3.1 Basic equipment ....................................................................................................................................... 16 2.3.2 East/west roof ............................................................................................................................................ 18 2.3.3 Solid fuel boiler .......................................................................................................................................... 20 2.3.4 Additional storage tank ............................................................................................................................ 22
2.4 SolvisMax Solo with third-party boiler ................................................................................................................ 24 2.4.1 Basic equipment ....................................................................................................................................... 24 2.4.2 East/west roof ............................................................................................................................................ 26 2.4.3 Solid fuel boiler .......................................................................................................................................... 28
2.5 Connection Diagram ............................................................................................................................................. 30 2.5.1 Connection table (system status) ........................................................................................................... 30 2.5.2 Mains module ............................................................................................................................................ 31
3 Expansion Board ............................................................................................................................................... 32
3.1 Connection table ................................................................................................................................................... 32 3.2 Connection Diagram ............................................................................................................................................. 32
4 Explanation of Symbols .................................................................................................................................... 33
4.1 Hydraulic elements ............................................................................................................................................... 33 4.2 Electrical symbols ................................................................................................................................................. 34
1 Information About These Instructions
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 3
1 Information About These Instructions This brochure contains basic instructions for the proper installation and operation of the system and system com-ponents. We will give you tips on how to ensure that the system operates in an economical and environmentally friendly manner. We recommend that you participate in a Solvis training course to ensure safe and proper installation. As we are interested in improving our technical documen-tation, we appreciate feedback of any kind. Copyright All parts of this document are protected by copyright. Any unauthorised use outside of the narrow limits of the copy-right law is not permitted and is punishable by law. This especially applies to copying, translating, microfilming and storing and editing in electronic formats. © SOLVIS GmbH, Braunschweig.
A list of our interna�onal representa�ves is provided at www.solvis.com.Please understand that the telephone numbers are reserved for use by our installers.Interested system operators should contact their installer.
Options for SolvisMax 7 SolvisMax - Options
Gas (SX)
Oil BW (BW)
District heating (FW)
Solo (SL)
Vaero (SVA)
Teo (Teo)
WWS-24 (LM-24) ✓ ✓ ✓ ✓ ✓ ✓ WWS-36 (LM-36) ✓ ✓ ✓ ✓ O O Flat-plate collectors ✓ ✓ ✓ ✓ ✓ ✓ Tube collectors ✓ ✓ ✓ ✓ ✓ ✓ First mixed heating circuit ✓ ✓ ✓ ✓ ✓ ✓ Second mixed heating circuit (1) ✓ ✓ ✓ ✓ ✓ ✓ Third unmixed heating circuit ✓ ✓ ✓ ✓ – –
Third mixed heating circuit (1) ✓* ✓* ✓* ✓* – –
East-west roof ✓* ✓* ✓* ✓* – –
Solid fuel boiler / flue ✓* ✓* ✓* ✓* O** O**
Room operating unit ✓ ✓ ✓ ✓ ✓ ✓ SolvisRemote ✓ ✓ ✓ ✓ ✓ ✓
(1) In place of the second and third mixed heating circuits, a swimming pool may be heated instead. ✓ = recommended, *= special functions not combinable! (Third mixed heating circuit or east-west roof or solid fuel boiler) O = possible, ** = only possible with additional regulator SolvisDeltaControl, – = not possible.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
4 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler 2.1 SolvisMax Gas and Öl 2.1.1 Basic equipment
H-RL
H-VL
BD
S8
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
S1
S4
SolvisMax Gas/Öl
S3
S9
STB
A12A13A14O-1
FA
SolvisControl
***
**
S10R1
*R2
R3 *
Fig. 1: SolvisMax Gas / SolvisMax Oil basic version with three mixed heating circuits – Part 1
* optional, ** applies only for SO, *** applies only for SX Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Oil or gas condensing system • An additional temperature-limited or mixed heating
circuit Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 FA Automatic firing system H-RL Heating return H-VL Heating flow STB Safety temperature limiter
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 5
LA
SASH-RL
H-VL
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T TS13
A4A10
A11HKS-G
HK1
T TS12
A3
A9
A8MM
HKS-G
HK3
T TS16
A5A6
A7M
Fig. 2: SolvisMax Gas / SolvisMax Öl basic version with three mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
6 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.1.2 East/west roof
H-VL
H-RL
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
BD
S16WO
BD
S8
A6 A7OWD-NO
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
S1
S4
SolvisMax Gas/Öl
S3
S9
STB
A12A13A14O-1
FA
SolvisControl
***
**
S10R1
*R2
Fig. 3: SolvisMax Gas / SolvisMax Öl with an east-west roof and two mixed heating circuits – Part 1
* optional, ** applies only for SO, *** applies only for SX Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Oil or gas condensing system • Additional collector(field) on the opposite half of the
roof (east-west roof) Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 FA Automatic firing system H-RL Heating return H-VL Heating flow STB Safety temperature limiter O Collector (field) on east roof W Collector (field) on west roof OWD-NO East-west roof set (OWD-S-NO)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 7
H-VL
H-RL
LA
SAS
SG-H
P
AG
3 bar
VTL-2
T
HKS-G
HK1
T
S12
A3A8
A9 HKS-G
HK2
T T
S13
A4
A11
A10
Fig. 4: SolvisMax Gas / SolvisMax Öl with an east-west roof, two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
8 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.1.3 Solid fuel boiler
H-RL
H/K-VL
K-RL
BD
S8
T
W
S18
S2
WWS
FBK-RL
R1
*R2A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Gas/Öl
S3
S9
STB
A12A13A14O-1
FA
SolvisControl
***
**
S10
20mbar
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
Fig. 5: SolvisMax Gas / SolvisMax Oil with solid fuel boiler and two mixed heating circuits – Part 1
* optional, ** applies only for SO, *** applies only for SX Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Oil or gas condensing system • additional solid fuel boiler Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve FA Automatic firing system HK1-3 Heating circuit 1 to 3 H-RL Heating return H/K-VL Heating and boiler flow K-RL Boiler return STB Safety temperature limiter FBK Solid fuel boiler TAS Thermal discharge safety device FBK-RL Connection pipe FBK return (RO-FBK-RL)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 9
LA
SASH/K-RL
H/K-VL
K-RL
T
PLAS
T
T
20mbar
50°C
A7
TWK
FBK
3 bar
TASS16
SG-H
P
AG
3 bar
VTL-2
T
HKS-G
HK1
TS12
A3A8
A9 HKS-G
HK2
T TS13
A4
A11
A10
Fig. 6: SolvisMax Gas / SolvisMax Oil with solid fuel boiler and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
10 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.1.4 Swimming pool
H-RL
H-VL
BD
S8
T
W
S18
S2
A1
TWZ TWKTWW
S11
SV
S17
AG-xx
VS5
SP2
SÜS-LM
WWS
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
S1
S4
SolvisMax Gas/Öl
S3
S9
STB
A12A13A14O-1
FA
SolvisControl
**
*
*
***
S10R1
R2
Fig. 7: SolvisMax Gas / SolvisMax Oil with swimming pool heating and two mixed heating circuits – Part 1
* optional, ** applies only for SO, *** applies only for SX Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Oil or gas condensing system • Solar swimming pool heating Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-2 Distributor bar, 2-way RF Pool sensor BE-SC-2-O-SEN
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-2 Heating circuit 1 to 2 FA Automatic firing system H-RL Heating return H-VL Heating flow STB Safety temperature limiter Pool Swimming pool R3 Connection for room sensor 3 SC2 SolvisControl 2
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 11
H-RL
H-VLLA
SAS
SG-H
P
AG
3 bar
S12
T
V
Pool
1)R3
HK1 HK2HK3
VTL-3
HKS-G
T TS12
A3
HKS-G
T T
A5
A7
A6MM
HKS-G
T TS13
A4
MA8
A9
A10
A11
Fig. 8: SolvisMax Gas / SolvisMax Oil with swimming pool heating and two mixed heating circuits – Part 2 1) As pool sensor use only "RF without sensor“ plus contact sensor PTC Pt1000 This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
12 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.1.5 Additional storage tank
BD
S8
SR-10H-VL
SR-11SR-1
SR-12
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
RV
RV
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
S1
S4
SolvisMax Gas/Öl
S9
STB
A12A13A14O-1
FA
SolvisControl
***
**
S10R1
*R2
Fig. 9: SolvisMax Gas / Oil, 2 reservoirs with solid fuel boiler and two mixed heating circuits – Part 1
* optional, ** applies only for SO, *** applies only for SX Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Oil or gas condensing system • additional solid fuel boiler • additional storage (SolvisStrato) Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve FA Automatic firing system HK1-3 Heating circuit 1 to 3 H-VL Heating flow SR xx Connection to SolvisStrato STB Safety temperature limiter FBK Solid fuel boiler TAS Thermal discharge safety device
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 13
SolvisStrato
2
4
6
8
10
12
1
3
5
7
9
11
LA
SAS
SR-10H-VLSR-11SR-1SR-12
TWK
FBK
3 bar
TASS16
T
PLAS
T
T
20mbar
50°C
A7
SG-H
P
AG
3 bar
VTL-2
T
HKS-G
HK1
TS12
A3A8
A9 HKS-G
HK2
T TS13
A4
A11
A10
S3
Fig. 10: SolvisMax Gas / Oil, 2 reservoirs with solid fuel boiler and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
14 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.2 SolvisMax Fernwärme (with district heating)
BD
S8
T
W
S18
S2
WWS
H/K-RL
H/K-VL
K-RL
A1
TWZ TWKTWW
S11
SV
FBK-RL
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
S1
S4
SolvisMax Fernwärme
S3
S9
SolvisControl
S10
A12S14
MmTW
FW-VL
FW-RL
T
T
P
WhP
P
R1
*R2
Fig. 11: SolvisMax District Heating with a solid fuel boiler and two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Building control station for district heating • additional solid fuel boiler Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 FW-RL District heating return FW-VL District heating flow H/K-VL Heating and boiler return H/K-VL Heating and boiler flow K-RL Boiler return mTW Mechanical temperature controller FBK Solid fuel boiler TAS Thermal discharge safety device FBK-RL Connection pipe FBK return (RO-FBK-RL)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 15
LA
SASH/K-RL
H/K-VL
K-RL
T
PLAS
T
T
20mbar
50°C
A7
TWK
FBK
3 bar
TASS16
SG-H
P
AG
3 bar
VTL-2
T
HKS-G
HK1
TS12
A3A8
A9 HKS-G
HK2
T TS13
A4
A11
A10
Fig. 12: SolvisMax District Heating with a solid fuel boiler and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
16 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.3 SolvisMax Solo with SolvisLino 4 2.3.1 Basic equipment
H/K-RL
H/K-VL
BD
S8
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
R3 *
Fig. 13: SolvisMax Solo basic version with SolvisLino 4 and three mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent SolvisLino pellet boiler • Buffer load circuit without return increase with speed-
controlled load pump • An additional temperature-limited or mixed heating
circuit Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 17
LA
SASH/K-RL
H/K-VL
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T T
S13
A4
A10
A11HKS-G
HK1
T T
S12
A3
A9
A8MM
HKS-G
HK3
T T
S16
A5
A6
A7MT
PLASUGM
T
20mbar
SolvisLino 4
3 bar
A13
S14O-1
LP
Fig. 14: SolvisMax Solo basic version with SolvisLino 4 and three mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Requirement for operating SolvisLino 4 without return increase: • Properly functioning speed control of the buffer
load pump by SolvisControl 2 in software version MA201 or later
• Using the PLAS (unmixed) buffer charging station • Connection of SolvisLino according to connection
diagram. Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched
using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1. Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
18 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.3.2 East/west roof
H/K-RL
H/K-VL
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
BD
S16WO
BD
S8
A6 A7OWD-NO
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
Fig. 15: SolvisMax Solo with an east-west roof, SolvisLino 4 and two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent SolvisLino pellet boiler • Buffer load circuit without return increase with speed-
controlled load pump • Additional collector(field) on the opposite half of the
roof (east-west roof) Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-2 Heating circuit 1 to 2 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow O Collector (field) on east roof W Collector (field) on west roof OWD-NO East-west roof set (OWD-S-NO)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 19
LA
SASH/K-RL
H/K-VL
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T T
S13
A4A10
A11HKS-G
HK1
T T
S12
A3
A9
A8MM
T
PLASUGM
T
20mbar
SolvisLino 4
3 bar
A13
S14O-1
LP
Fig. 16: SolvisMax Solo with an east-west roof, SolvisLino 4 and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Requirement for operating SolvisLino 4 without return increase: • Properly functioning speed control of the buffer
load pump by SolvisControl 2 in software version MA201 or later
• Using the PLAS (unmixed) buffer charging station • Connection of SolvisLino according to connection
diagram. Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched
using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1. Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
20 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.3.3 Solid fuel boiler
H/K-RL
H/K-VL
K-RL
BD
S8
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
FBK-RL
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
Fig. 17: SolvisMax Solo with SolvisLino 4, a solid fuel boiler and two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent SolvisLino pellet boiler • Buffer load circuit without return increase with speed-
controlled load pump • additional solid fuel boiler Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-2 Heating circuit 1 to 2 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow K-RL Boiler return FBK Solid fuel boiler TAS Thermal discharge safety device FBK-RL Connection pipe FBK return (RO-FBK-RL)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 21
LA
SAS
H/K-VL
H/K-RL
K-RL
T
PLAS
T
T
20mbar
50°C
A7
TWK
FBK
3 bar
TASS16
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T T
S13
A4A10
A11HKS-G
HK1
T T
S12
A3
A9
A8MM
T
PLASUGM
T
20mbar
SolvisLino 4
3 bar
A13
S14O-1
LP
Fig. 18: SolvisMax Solo with SolvisLino 4, a solid fuel boiler and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Requirement for operating SolvisLino 4 without return increase: • Properly functioning speed control of the buffer
load pump by SolvisControl 2 in software version MA201 or later
• Using the PLAS (unmixed) buffer charging station • Connection of SolvisLino according to connection
diagram. Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched
using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1. Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
22 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.3.4 Additional storage tank
BD
S8
SR-10H-VL
SR-11SR-1
SR-12
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S9
SolvisControl
S10
RV
RV
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
Fig. 19: SolvisMax Solo with SolvisLino 4, second reservoir, solid fuel boiler, two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent SolvisLino pellet boiler • additional solid fuel boiler • additional storage (SolvisStrato) Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 H-VL Heating flow SR xx Connection to SolvisStrato FBK Solid fuel boiler TAS Thermal discharge safety device
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 23
SolvisStrato
2
4
6
8
10
12
1
3
5
7
9
11
LA
SAS
SR-10H-VLSR-1SR-11SR-12
SG-H
P
AG
3 bar
T
PLAST
T
20mbar
50°C
A7
VTL-2
T
HKS-G
HK1
TS12
A3A8
A9 HKS-G
HK2
T TS13
A4
A11
A10T
PLASUGM
T
20mbar
SolvisLino 4
3 bar
A13
S14O-1
LP
TWK
FBK
3 bar
TASS16
S3
Fig. 20: SolvisMax Solo with SolvisLino 4, second reservoir, solid fuel boiler, two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
24 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.4 SolvisMax Solo with third-party boiler 2.4.1 Basic equipment
H/K-RL
H/K-VL
BD
S8
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
R3 *
Fig. 21: SolvisMax Solo basic version with third-party boiler and three mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent customer-provided boiler (third-party boiler) • An additional temperature-limited or mixed heating
circuit Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow FA Automatic firing system FK Third-party boiler FSB Spring-loaded gravitational force brake
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 25
LA
SASH/K-RL
H/K-VL
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T TS13
A4A10
A11HKS-G
HK1
T TS12
A3
A9
A8MM
HKS-G
HK3
T TS16
A5A6
A7M
FK
3 bar
FA
O-1
S14
A12 A144-36l/minV
T
PLASUGM
T
20mbar
A13LP
Fig. 22: SolvisMax Solo basic version with third-party boiler and three mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
26 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.4.2 East/west roof
H/K-RL
H/K-VL
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
BD
S16WO
BD
S8
A6 A7OWD-NO
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
Fig. 23: SolvisMax Solo with third-party boiler, east-west roof and two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent customer-provided boiler (third-party boiler) • Additional collector(field) on the opposite half of the
roof (east-west roof) Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow FA Automatic firing system FK Third-party boiler FSB Spring-loaded gravitational force brake O Collector (field) on east roof W Collector (field) on west roof OWD-NO East-west roof set (OWD-S-NO)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 27
LA
SASH/K-RL
H/K-VL
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T TS13
A4A10
A11HKS-G
HK1
T TS12
A3
A9
A8MM
T
PLASUGM
T
20mbar
A13LP
FK
3 bar
FA
O-1
S14
A12 A144-36l/minV
Fig. 24: SolvisMax Solo with third-party boiler, east-west roof and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
28 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.4.3 Solid fuel boiler
H/K-RL
H/K-VL
K-RL
BD
S8
T
W
S18
S2
WWS
A1
TWZ TWKTWW
S11
SV
S1
S4
SolvisMax Solo
S3
S9
SolvisControl
S10
FBK-RL
S17
AG-xx
VS5
SP2
SÜS-LM
SOL-SKV
SV
P
SV-SOL 6 bar
S7
I3
S6
SP1
R1
*R2
Fig. 25: SolvisMax Solo with third-party boiler, solid fuel boiler and two mixed heating circuits – Part 1
* optional Equipment • SolvisControl 2 system controller • Drinking water heating • Two mixed heating circuits • Solar circuit with one collector (field) • Adjacent customer-provided boiler (third-party boiler) • additional solid fuel boiler Modules: LPB Lightning protection box HKS-G Heating circuit station, mixed AG-xx Solar expansion vessel WWS Hot water station SG-H Heating circuit safety group SÜS-LM Solar heat transfer station VTL-3 Distributor bar, 3-way PLAS Buffer charging station
Abbreviations LA Air separator AG Expansion vessel SAS Sludge separator SV Safety valve SOL-SKV Solar cap valve SV-SOL Solar safety valve TWK Drinking water network, cold connection TWW Drinking water network, hot connection TWZ Drinking water network, circulation connection
V Adjusting valve HK1-3 Heating circuit 1 to 3 H/K-VL Heating and boiler return H/K-VL Heating and boiler flow K-RL Boiler return FA Automatic firing system FK Third-party boiler FSB Spring-loaded gravitational force brake FBK Solid fuel boiler TAS Thermal discharge safety device FBK-RL Connection pipe FBK return (RO-FBK-RL)
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 29
LA
SASH/K-RL
H/K-VL
K-RL
T
PLAS
T
T
20mbar
50°C
A7
TWK
FBK
3 bar
TASS16
SG-H
P
AG
3 bar
VTL-3
HKS-G
HK2
T TS13
A4A10
A11HKS-G
HK1
T TS12
A3
A9
A8MM
T
PLASUGM
T
20mbar
A13LP
FK
3 bar
FA
O-1
S14
A12 A144-36l/minV
Fig. 26: SolvisMax Solo with third-party boiler, solid fuel boiler and two mixed heating circuits – Part 2
This diagram is not a substitute for detailed technical planning. To ensure the correct function of the system, our installation, operating and mainte-nance instructions must be followed. When connecting a third-party boiler, do not rely solely on the information provided – always consult the manufac-turer of the boiler.
We reserve all copyright and protection rights for this drawing. This drawing may only be duplicated or made accessible to third parties with our express written permission. SOLVIS GmbH
Correct circulation pump Before connecting a circulation pump, consult the operat-ing instructions of the manufacturer to check whether your model is suitable for operation on a switching relay output. Some pumps are equipped with their own control elec-tronics to adapt to user behaviour (e.g. Grundfos UPS 15-14 BA PM). Such adaptive pumps may not be switched using the SolvisControl. They must be permanently con-nected to the mains voltage. To do this, use a free connec-tion on the 230V supply board directly beside the mains module or set output A1 to Hand/ON in the installer under Output A1.
Pumps without their own electronics that are intended for frequent switching on and off may be connected as usual to output A1 in pulse, time or combined operation mode. If it is uncertain whether the relay output of the SolvisCon-trol will function with the circulation pump to be used without causing problems, use a cut-off relay. This should be installed between output A1 and the mains supply of the circulation pump. This will reliably prevent any damage to the control.
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
30 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
2.5 Connection Diagram 2.5.1 Connection table (system status) SolvisMax Gas, Öl, FW and Solo Sensors (temperature sensors and volume flow encoders) Actuators (pumps, signals and control valves) Inputs
Designation (sensor) Outputs
Designation no. Option* no. Option* S1 All Sto. tank, top A1 All Circulation pump S2 All Hot water A2 All (Unused) S3 All Sto. tank reference A3 All Pump for heating circuit 1 S4 All Heating buffer, upper A4 All Pump for heating circuit 2 S5 All Solar flow 2 A5 All Pump for heating circuit 3
S6 All Solar return 2 A6 East-west roof Valve 1 Solid fuel boiler (FBK) (Unused) HC 3 Heating circuit 3 mixer open
S7 All Solar flow 1 A7 East-west roof Valve 2 Solid fuel boiler (FBK) Load pump HC 3 Heating circuit 3 mixer closed
S8 All Collector A8 All Heating circuit 1 mixer (open) S9 All Heating buffer, lower A9 All Heating circuit 1 mixer (closed) S10 All Outdoor temperature A10 All Heating circuit 2 mixer (open) S11 All Circulation A11 All Heating circuit 2 mixer (closed) S12 All Flow for heating circuit 1 A12 All District heating valve3) / burner
S13 All Flow for heating circuit 2 A13 All LI-3/4 load pump or third-party boiler 1)/burner 2 2) / –––
S14 All LI-3/41) boiler/third-party boiler1)/district heating return3) / ––– A14 All District heating valve3) / burner 1) / interf.
supp. S15 All Cold water (optional) O-1 All Modulation4) (0 – 10 V) / –––2)
S16 East-west roof Collector 2
SP1 All PWM solar pump 1 Solid fuel boiler (FBK) Wood boiler Other Flow for heating circuit 3
S17 All Solar volume flow encoder SP2 All PWM solar pump 2 S18 All Water volume flow encoder W All PWM hot water pump I-1 All External burner requirement LP All PWM load pump LI-3/4 or third-party boiler I-2 All (Unused) I-3 All Solar pressure
R1 All Room control element for heating circuit 1 (optional)
R2 All Room control element for heating circuit 2 (optional)
R3 All Room control element for heating circuit 3 (optional)
ST1 All Jumper / mechanical safety temperature limiter (mSTL)2)
ST2 All Jumper * “All” = applies to “Normal”, “East-west roof”, “Solid fuel boiler” and “HC 3”. “Normal” = without option, “Solid fuel boiler” = additional solid fuel boiler or “HC 3” = additional mixed heating circuit 1) Only applies to SolvisMax Solo 2) Only applies to SolvisMax Öl 3) Only applies to SolvisMax Fernwärme (with district heating) 4) Burner requirement and modulation for SolvisLino 3
2 Gas, Öl, Fernwärme (District Heating), Pellet, Third-Party Boiler
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 31
2.5.2 Mains module
Prog.
ST1
N
M
M 6,3 A T 1,0 A
L´ N´ N L L N PE
A1
A2
A3
A4
A5
A6
A7
A8A9
A13
A10A11
ST2
A12S3 T2 T1 L PE
A1 N PE
A2 N PE
A3 N PE
A4 N PE
A5 N PE
A6 N PE
A7 N PE
A8 A9
N
PE
A13 N PE
A10 A11 N PE
S18 S17 S16 S15 S14 S13 S12 S11 S10
Solar 1/2 O1
LP
-R3+ -R2+ -R1+
-I3+ -I2+ -I1+ VCC
A14
WW
S9 S8 S7 S6 S5 S4 S3 S2 S1
n
ϑ
ϑ
ϑS8
ϑ
n
ϑ
ϑ
ϑ
S7
S6
S5
S14
S15
S16
S17
S18
ϑ
ϑR1
R2
ϑ
ϑ
S4ϑ
ϑ
ϑ
ϑ
S3
S1
S2 WWS
EP
S13
S12
S11
S10ϑ
ϑ
S
PENL 1
M A5
PENL 1
M A4
A8/9
M A10/11
PENL 1
M
PWM
PWM
PWM
A1
LNPE
N'L'
SX
01/A14
Al. SX
Al. SÖ
SÖ SX
A12
A13/14
SÖ
S9ϑ
ϑR3
pI-3
I-1
SolarLPWWS
PENL 1
M A3
PENL 1
M
M A6/7
NL PE
NL PE
Al. OW-D
Al. OW-D
Al. FBK
o. ASTB*
mSTB o.
Al. SL
Al. SÖ
PWMSolar
PENL
MA13 1
KKB-LI3-SC-2 Al. SL-LI
KBB-SC-2
Alarm
BR
KBB-SÜS
KBB-Netz-7-SC-2
Reset
RS232
BR
Fig. 27: SolvisControl 2 mains module for SolvisMax Gas, Öl, Fernwärme (with district heating) and Solo
* Exhaust safety temperature limiter (ESTL) only required in Switzerland AL FBK Solid fuel boiler alternative KBB-LI3-SC2 Burner cable for SolvisLino 3/4 AL OWD East-west roof alternative KBB SC-2 SolvisControl 2 sensor cable harness AL SL-LI Alternative: SolvisSolo with SolvisLino 3/4 KBB-SÜS Sensor cable harness for solar heat transfer station AL SÖ Alternative connection for SolvisMax Öl mSTL Mechanical safety temperature limiter AL SX Alternative connection for SolvisMax Gas WWS Hot water station ESTL Exhaust safety temperature limiter ZR Central controller interface BR Jumper EP Expansion board, see Fig. 28, p. 32
3 Expansion Board
32 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
3 Expansion Board 3.1 Connection table Actuators (pumps) Output no. Designation (230 V mains connection) 1 Solar pump 1 2 Solar pump 2 3 Hot water pump
3.2 Connection Diagram
LN
PE PE
LN
PE
LN
L'N'LN
PE
LN
PE PE
LN
PEL N
1 2
3 4 5
NB-SC2SICHERUNG
NETZKBB-Netz-7-SC-2 NBG
230V50Hz
N PEL1
PENL
1M230V
PENL
1M230V
PENL
1M230V
PENL
1M230V
PENL
1M230V
Fig. 28: Expansion board for SolvisControl 2 mains module KBB Cable harness NB-SC2 SolvisControl 2 mains module NBG SolvisControl 2 mains module FUSE Glass socket fuse, 5x20mm, max. 4A delayed-action MAINS Mains connection
4 Explanation of Symbols
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 33
4 Explanation of Symbols 4.1 Hydraulic elements Valves Symbol Meaning
Manometer
Thermometer
Components Symbol Meaning
Membrane expansion vessel
Oil or gas burner
Solar collector
Consumers in the heating circuit
Heat exchanger
Wh
Heat quantity counter
FBK
Solid fuel boiler (FBK) or pellet boiler (Lino 3)
FA
Oil or gas boiler
Compressor (heating pump aggregate)
Electric heating cartridge
Valves Symbol Meaning
Shut-off valve or valve
V
Adjusting valve
Bleeding tap
Motor-driven mixing valve
Gravity brake / non-return valve
SV
Safety valve
Thermostatic mixing valve
SOL-SKV
Solar cap valve
Boiler filling and draining valve
Thermal discharge safety device (TAS)
Other hydraulic components Symbol Meaning
Pressure controller, brine circuit
Volume flow encoder
Pump
Sludge separator
Drinking water filter
4 Explanation of Symbols
34 SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN SOLVIS
4.2 Electrical symbols Actuators Symbol Meaning
General actuator (pump / control valve / mixing valve / connection)
Servomotor (e.g. on the three-way mixing valve)
Motor (e.g. of a pump)
Sensors Symbol Meaning
General sensor (temperature sensor, volume flow encoder, etc.)
Volume flow encoder
Temperature sensor
Other electrical components Symbol Meaning
Jumper
On/off switch (button with lock function)
FA
Automatic firing system
BD
Lightning protection box
RF
Room control element
S3/A12
Terminal S3 at output A12
SOLVIS SolvisMax · Subject to technical changes 04.18 · ALS-MAX-7-EN 35
Notes
Art.-
Nr.:
278
85 -
ALS-
MAX
-7-E
N -
Subj
ect t
o te
chni
cal c
hang
es -
Dok
umen
t-N
r.: 2
7885
-3c
/ Sta
nd: 0
4.18
SOLVIS GmbH Grotrian-Steinweg-Straße 12 D-38112 Braunschweig
Phone: +49 (0) 531 28904-0 Fax.: +49 (0) 531 28904-100 E-mail: [email protected]
Internet: www.solvis.com *27885*