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Installatie
Pipeline, Condensate drain pipe
FIGURE 1
Discharge of the condensate
through an outflow frost resistant
A Load-bearing base.
B Antifreeze ( compacted crushed stone).
C Ground
D Condensate drain , Di = 25 mm De = 32 mm
E Drain (min DN 40)
F Syphon
G Outfall
The condensate is discharged from
the collection tank by means of a
tube. In the design and installation
of the condensate drain , you should
consider the following points :
It is necessary to set up the
•
condensate discharge pipe
by the heat pump with a side
slope constant.
It is necessary a draining
•
floor
It is necessary to provide for
•
the discharge of condensate
water through drainage or
sewage in a siphon with a
water reserve of at least 60
mm , in a frost-resistant zone
( minimum depth 900 mm )
26
• Before positioning the heat pump, the
cladding tube ( A) should be cut back
to 5 cm,
• Cut the stainless steel corrugated
pipe (B) at about 100 mm above the
height of the base
• Cut the plastic pipe (C) to the electri-
cal system as needed.
FIGURE 2
Dispersion of condensate
in a filling of gravel
There should be a well of
•
maintenance for the siphon .
In the case where it is neces-
•
sary to drain the condensed
water, the drain DN 40 ( E)
must end in a frost-resistant
zone to at least 900 mm deep
(Figure 2) .
The sleeve of the drain hose
•
(min . DN 40 ) ( E) must end
flush with the top edge of the
foundation.
The condensate drain must
•
be inserted into a siphon.
The condensate drain pipe is
•
not included in the delivery. Its
production is borne by the
customer .
A Load-bearing base.
B Antifreeze ( compacted crushed stone).
C Ground
D Condensate drain , Di = 25 mm De = 32 mm
E Drain (min DN 40)
F Gravel for seepage of condensate
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