KORADO, a.s.KORALUX HARMONY - Towel Rail Radiator from Stainless Steel
Description
Design radiator KORALUX HARMONY is produced from premium stainless steel. It is characterized by individual design, high corrosion and shock resistance, it can be cleaned easily and fulfills high demands on hygiene and cleanness.
- Heat Output and Basic Technical Parameters (
PDF, 159 kB)
Technical Data
VERTICAL position |
Dimension A | 800, 1000, 1200, 1400, 1600, 1800, 2000 mm | |
| Dimension B | 230, 368, 506, 644, 782, 920 mm | ||
| Connecting pitch (position VERTICAL) |
h = A - 36 mm | ||
| Connecting pitch (position HORIZONTAL) |
h = A - 36 mm | ||
| Connecting thread | 4 x G½ inside | ||
| Maximum working pressure | 10 bar | ||
| Test pressure | 13 bar | ||
| Maximum working temperature | 110 °C | ||
| Flow coefficient | AT = 1,8 . 10-4 м² | ||
| Coefficient of resistance | ξT = 2,5 |
HORIZONTAL position |
KORALUX HARMONY | VERTICAL position | HORIZONTAL position | |
| Dimension A | Height H | Length L | ||
| Dimension B | Length L | Height H | ||
| Connecting pitch h | h = H - 36 | h = L - 36 |
Construction
The design radiator KORALUX HARMONY is produced from stainless steel tubes and can be mounted to the wall both in HORIZONTAL and VERTICAL position.
Note: The position of the radiator and the way it is connected to the heating system influence the heat output (see the table with heat outputs) and the radiator dimensions, such as height H, length L and connecting pitch h.
| VERTICAL position | HORIZONTAL position |
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Stainless steel tube:
ø 30 mm
ø 40 mm
Mounting
For mounting there are hangers welded on the back side of the radiator. The mounting set is delivered as standard and contains 4 brackets and the mounting instructions.
| VERTICAL position |
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| HORIZONTAL position |
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Overview of Types
The radiator KORALUX HARMONY represents one model which can be installed in two positions.
| VERTICAL position |
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| HORIZONTAL position |
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Pressure Loss
The pressure loss of the radiator for the respective working conditions can be calculated by means of the value of the flow coefficient AT or the resistance coefficient ξT (see please the Technical Parameters).
