• Top thermal efficiency
  • Reliability in construction
  • Innovative design
  • Does not overheating
PHAETHON
TYPE
1,70m²
2,00m²
2,40m²
2.40-Hm²

INFORMATION           CHARACTERISTICS           DIMENSIONS

PHAETHON COLLECTOR

Hydroskeleton is made of copper pipes Φ8 and Φ22mm with 4 outlets. Mirotherm Control absorber sheet, which ensures very high annual solar energy absorption above 96% and high resistance to corrosion due to moisture. The new product consists of a 4-layer package with a specially processed base. It is applied using PVD (Physical Vapour Deposition) technology in a coil-to-coil production line. The solar radiation absorption surface is perfectly applied to the copper hydroskeleton through welding by automatic LASER machines, allowing direct heat transfer to the thermal fluid.

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Made of heavy-duty oval aluminum profiles, 1.4mm thick, with high aesthetics and advanced design. It has internal angular screw-type aluminum connectors that ensure excellent fit and sealing of the frame sections, as well as great stability of the collector. The back of the frame is made of 5mm aluminum sheet, applied with a special automatic mechanical clinching machine, ensuring sealing and robustness.

It is a 3.2mm thick tempered low-iron glass. The low iron content provides the advantage of low reflection, resulting in higher absorption. Additionally, it is safety glass that can withstand hail and falling objects. On top of the glass, a special aluminum profile is applied as a fastening element, along with the additional application of a special EPDM rubber, making it fully sealed and extremely robust.

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 minimum possible thermal loss. Furthermore, the specially designed elastic gasket for the application at the copper pipe outlets prevents the formation of a thermal bridge between the frame and the hydroskeleton, while also absorbing contractions and expansions due to temperature changes.

SUPPORT BASE

A unique mechanical design of a terrace support base that allows for easy transportation, assembly, and installation of the solar system. It is processed using a LASER machine, resulting in smooth edges that do not cause injury. The solar collector support has been tested to withstand the most extreme weather conditions. For assembly instructions, refer to the video link provided.

A unique mechanical design of a tile roof support base that allows easy assembly and installation of the solar system. It is processed using a LASER machine, resulting in smooth edges that do not cause injury. The solar system support has been tested to withstand the most extreme weather conditions. Please pay attention to the installation for the appropriate orientation depending on the country (e.g., the suitable orientation for Greece is south). Additionally, the buyer should consider the system’s inclination, which is recommended to be at least 30% or up to 40%. For assembly instructions, refer to the video link provided.

The packaging of the solar system support base includes all the screws required for its assembly and the components necessary for connecting the pipes that join the tank with the collector.

CHARACTERISTICS

Models

Weight

 Capacity

Number of pipes

Absorbed surface

SA170/1,70m2

30

1,3

9

970x1525x4

SA200/2,00m2

34

1,4

9

930x1925x4

SA240/2,40m2

37

1,7

11

1135x1925x4

SAH240/2,40m2

39

1,7

15

1135x1925x4

DIMENSIONS

TYPE

LENGTH cm

WIDTH cm

1,7

105

160

2,0

100

200

2,4

120

200

2,4 HOR

200

120

COLLECTOR BASE DIMENSIONS

TYPE Γ Δ Ε Ζ Η1 Η2 Θ
1,70 93 164 7,5 122 93 93 142
2,00 93 207 7,5 146 93 93 176
2,40 93 207 7,5 146 93 93 176
2,40-Η 93 125 7,5 100 93 93 89
2 Χ 1,70 93 156 7,5 122 93 93 142
2 Χ 2,00 93 207 7,5 146 93 93 176
2 Χ 2,40 93 207 7,5 146 93 93 176

COLLECTOR BASE DIMENSIONS

TYPE Γ Δ Ε Ζ Η1 Η2 Θ
1,70 93 164 7,5 122 93 93 142
2,00 93 207 7,5 146 93 93 176
2,40 93 207 7,5 146 93 93 176
2,40-Η 93 125 7,5 100 93 93 89
2 Χ 1,70 93 156 7,5 122 93 93 142
2 Χ 2,00 93 207 7,5 146 93 93 176
2 Χ 2,40 93 207 7,5 146 93 93 176