• The top GLASS choice
  • Double coating of liquid enamel at 860°C
  • Unmatched performance with copper selective collectors
  • 5-year warranty by SONNE AKTION
  • Absolute compatibility with a heat pump
Atlas Type
Collector		 Phaethon Type
Collector
TYPE TYPE
T120/1,50m² T120/1,70m²
T150/1,90m² T150/2,00m²
T160/2,30m² T160/2,40m²
T160-H/2,30m² T160-H/2,40m²
T160-D/3,00m² T160-D/3,40m²
T200/3,00m² T200/3,40m²
T200-E/2,30m² T200-E/2,40m²
T300/3,80m² T300/4,00m²
T300-L/4,60m² T300-L/4,80m²

More Categories

  • Roof or Terrace

INFORMATION           CHARACTERISTICS           DIMENSIONS

GLASS THERMOSIPHON

The main body of the thermosiphon is made of 2.5mm thick steel sheet, while the jacket is made of 1.5mm thick steel sheet. Double coating of liquid enamel, which is baked at a temperature above 850°C. The enameling process is performed in our own facilities, ensuring the best quality and maximum lifespan.
Magnesium rod for protecting the tank from galvanic electrolysis, which is internally screwed onto the resistance flange. The connections of the thermosiphon are ½” male brass threads.

High-density expanded polyurethane insulation (44 kg/m3) with a thickness of 50mm and thermal conductivity of 0.0120 W/mk. It ensures hot water availability even the next morning.

Standard pre-painted Aluzinc in gray RAL9006 color with specially designed snap-on side covers. It is also available in terracotta color upon request.

Copper flange with a diameter of 140mm, 8 threaded connections, seamless copper resistance with a brass flange of 3.5 kW. 4-contact monopolar thermostat and bipolar protection with backup safety.

In the case of a dual-energy tank, there is a helical copper heat exchanger inside the tank with a diameter of 1’’. The connection of the heat exchanger to the central heating system is recommended to be operated with automation, achieved by connecting the special sensor in a position (basket) located next to the resistance in the thermostat position.

3 BAR closed circuit safety valve. 8 BAR water inlet safety valve with non-return. ½” female brass plug for the closed circuit. Plastic pipe 18X2.5 and 22X3.0 for connection to collectors and insulation with a special cover for protection against UV radiation. 1 liter of propylene glycol antifreeze in a 1:10 ratio for frost protection.

PHAETHON COLLECTOR

Hydroskeleton made of copper pipes with diameters of 8mm and 22mm with 4 outlets. Mirotherm Control absorber sheet ensuring very high annual solar energy production with solar absorption above 96% and high resistance to corrosion due to moisture. The new product consists of a 4-layer package with specially treated base. It is applied using PVD (Physical Vapor Deposition) technology on a production line from coil to coil. The solar radiation absorption surface is perfectly applied on the copper hydroskeleton by welding with automatic LASER machines for direct heat transfer to the heat transfer fluid.

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Made of heavy-duty oval aluminum profiles with a thickness of 1.4mm, high aesthetics, advanced design, with internal angular cast-aluminum screw connections that ensure excellent fitting and sealing of frame parts as well as high stability of the collector. The back of the frame is made of 5mm aluminum sheet applied using a special automatic mechanical stapling machine, ensuring tightness and stability.

Tempered Low iron glass with a thickness of 3.2mm. The low iron content has the advantage of low reflection, resulting in higher absorption. It is also safety glass that withstands hail and object falls. A special aluminum profile is applied to the glass as a fastening mechanism, which, along with the additional application of the special EPDM rubber, makes it fully sealed and extremely sturdy.

Glass wool with a density of d=30kg/m3, which is placed on the back of the collector and the side aluminum frame. It achieves the lowest possible thermal loss. Additionally, the specially designed elastic gasket for application at the copper pipe outlets prevents the creation of a thermal bridge between the frame and the hydroskeleton while absorbing contractions and expansions due to temperature changes.

ATLAS COLLECTOR

Selective surface made of 4mm thick aluminum sheet with titanium oxide coating. The coating process is carried out in a vacuum in Germany. The solar radiation absorption surface is perfectly applied to the copper frame, welded by automatic laser machines for direct heat transfer to the thermal fluid. Its properties ensure the maximum thermal efficiency of the collector, achieving an absorptivity coefficient of α>95% and an emissivity coefficient of ε<5%.

Made of aesthetically pleasing, advanced design aluminum profiles with external angular connectors that ensure optimal fitting and tightness of the frame parts, as well as great stability of the collector. The back of the frame is made of 5mm thick aluminum sheet, which is applied using a special machine for automatic mechanical clinching, ensuring tightness and robustness.

It is 3.2mm thick tempered low iron glass. The low iron content has the advantage of low reflection, resulting in higher absorption. Additionally, it is safety glass that can withstand hail and object impacts.

Glass wool with a density of d=30kg/m3 is placed on the back of the collector. This achieves minimal thermal loss. Furthermore, the specially designed elastic gasket for the application at the outlets of the copper pipe prevents the creation of a thermal bridge between the frame and the hydro-skeleton, while also absorbing expansions and contractions due to temperature changes.

SUPPORT BASE

A unique mechanical design support base for terrace installation, which is easy to transport, assemble, and position the solar system. The processing is done on a LASER machine, resulting in smooth edges that do not cause injuries. The support of the solar system has been tested to withstand extreme weather conditions. For assembly instructions, refer to the video:

A unique mechanical design support base for tiled roof installation, which is easy to assemble and position the solar system. The processing is done on a LASER machine, resulting in smooth edges that do not cause injuries. The support of the solar system has been tested to withstand extreme weather conditions. Pay attention to the installation for the appropriate orientation depending on the country (southern orientation is suitable for Greece). Additionally, the buyer should consider the inclination of the system, which is recommended to be from 40% to at least 30%. For assembly instructions, refer to the video:

The packaging of the solar system support base includes all the screws required for its assembly and the components needed for connecting the pipes that connect the container to the collector.

CHARACTERISTICS

Phaethon Type Collector

Water Volume

Pieces Collector Dimensions

System Weight Vacuum/In Operation (kg)

T120/1,70m2

115

1 ΤΕΜ. 105X160

93/208

T150/2,00m2

142

1 TEM. 100X200

111/253

T160/2,40m2

154

1 ΤΕΜ. 120X200 ΚΑΘΕΤΟΣ

116/270

T160-H/2,40m2

154

1 ΤΕΜ. 200X120 ΟΡΙΖΟΝΤΙΟΣ

116/270

T160-D/3,40m2

154

2 TEM. 105X160

135/289

T200/3,40m2

194

2 TEM. 105X160

130/324

T200-E/2,40m2

194

1 ΤΕΜ. 120X200

113/307

T300/4,00m2

292

2 ΤΕΜ. 100X200

187/479

T300-L/4,80m2

292

2 ΤΕΜ. 120X200

195/487

Phaethon Type Collector

Water Volume

Pieces Collector Dimensions

System Weight Vacuum/In Operation (kg)

T120/1,50m2

115

1 ΤΕΜ. 100X150

93/208

T150/1,90m2

142

1 TEM. 0,97X1,97

111/253

T160/2,30m2

154

1 ΤΕΜ. 117X197 ΚΑΘΕΤΟΣ

116/270

T160-H/2,30m2

154

1 ΤΕΜ. 197X117 ΟΡΙΖΟΝΤΙΟΣ

116/270

T160-D/3,00m2

154

2 TEM. 100X150

135/289

T200/3,00m2

194

2 TEM. 100X150

130/324

T200-E/2,30m2

194

1 ΤΕΜ. 117X197

113/307

T300/3,80m2

292

2 ΤΕΜ. 97X197

187/479

T300-L/4,60m2

292

2 ΤΕΜ. 117X197

195/487

ΔΙΑΣΤΑΣΕΙΣ

PHAETHON

TYPE A B TOTAL Γ Δ Ε Ζ Η1 Η2 Θ
120 50 100 113 105 160 8,5 160 89 89 157
150 50 120 132 100 200 8,5 193 89 89 190
160 58 100 113 120 200 8,5 193 89 89 190
160 – Η 58 100 113 200 120 8,5 158 89 89 110
160 – D
 58 100 113 215 160 8,5 168 89 180 157
200 58 120 132 215 160 8,5 168 89 180 157
200 – E 58 120 132 120 200 8,5 193 89 89 190
300 58 170 183 205 200 8,5 193 89 180 190
300 – L 58 170 183 245 200 8,5 193 89 180 190

ATLAS

TYPE A B TOTAL Γ Δ Ε Ζ Η1 Η2 Θ
120 50 100 113 100 150 7,5 160 89 89 148
150 50 120 132 97 197 7,5 193 89 89 190
160 58 100 113 117 197 7,5 193 89 89 190
160 – Η 58 100 113 197 117 7,5 158 89 89 110
160 – D
 58 100 113 208 157 7,5 168 89 180 148
200 58 120 132 208 157 7,5 168 89 180 148
200 – E 58 120 132 117 197 7,5 193 89 89 190
300 58 170 183 200 197 7,5 193 89 180 190
300 – L 58 170 183 240 197 7,5 193 89 180 190