8
Q
(
10
) Fix the brackets to the wall. Check the perpendicular-
ity and alignment.
Installation of panel with brassware
Q
(
11
) Unscrew the screws, disconnect the leads and remove
the panel. Apply the gasket.
Bring the panel with brassware towards the installation area.
Q
(
12
) Position the panel frame on the tray, checking that it
it hooks to the protruding tray cornice.
Hold in place with the appropriate screws. Unscrew the screws
and rest the panel on its side.
Q
(
13
) Fix the frame to the two previously installed panels.
Panel with brassware hydraulic and electrical con-
nections
Q
(
14
) Draw the panel closer. Carry out the connections de-
scribed in the figure:
- to the steam outlets
- to the boiler drain
-to the showerhead
-to the wall connections
Q
(
15
) Carry out the connections described in the figure:
- to the building’s electrical supply system.
- to the temperature probe;
- to the emergency alarm circuit (see also the relative chapter);
- to the equipotential terminal board.
Also refer to the wiring diagram.
IMPORTANT:
for Countries where 220-240V voltage is
supplied by a two-phase system (L+L), the connection
has to be made on terminals L1 and N anyway.
Q
Connecting the alarm (where necessary)
There are two terminals inside the electric control box (designated
with “ALL”)
to which the alarm circuit should be connected; these
terminals are open contacts powered by a relay.
- When the “alarm” key is pressed, a relay inside the electric con-
trol box activates the emergency call device for approximately
15 seconds. The call warning (alarms, buzzers, lamps, etc.) may
be powered to either 220/240 V or low voltage, however with
maximum power absorption equal to 5 A.
- The alarm circuit connection must incorporate a cable with
characteristics not inferior to
H 05 VV-F 2x0,75 mm
2
. This cable
type must be used in order to ensure that the cable clamp at-
tached to the box provides adequate protection as specified by
legislation.
To ensure the degree of protection against splashes of water,
the alarm outlet cable clamp is sealed by a plug in the factory;
this should only be removed when carrying out the connection.
We recommend using clamps to gather tubes and cables
and check that there are no obstacles which could hinder as-
sembly and attachment of the panel.
Q
(
15
) Attach the panel to the frame using the relevant screws.
Put on the screw caps.
Installing glass panels
ATTENTION: in order to move the glass, ONLY use a
suitable suction lifter; the size should be suited to the
weight of the actual glass. You must also use suitable
protective gloves.
Q
(
16
) Insert the glass panel indicated inside the cladding
profile and tray profile.
ATTENTION: check that the glass side displaying the
label faces inwards towards the inside of the shower
enclosure.
Installing the cornice
Q
(
17
) Remove the lower element (identifiable owing to the
3 holes present on the internal part) and thread the short, metal
dowel inside the element itself.
The vertical element with magnetic profile (M) must be posi-
tioned on the door closure side.
Q
(
18
) Remove the remaining vertical element and the top
element. Caulk the indicated areas of the lower profile and as-
semble the elements, checking that the joints do not feature
gaps. Fix the elements together.
Q
(
19
) Working from the inside, place a line of silicone on the
lower frame element; hook up the frame to the screws present
on the tray. Thread the frame to the glass panel, to the very edge.
Hold it in place with double-sided tape.
Installing the roof
Q
(
20
) Apply the gasket.
Q
(
21
) Ensure you hook the roof in the grooves present on
the upper cornice element.
Carry out the following connections:
- to the shower heads (A);
- to the waterfall (B);
- to the spray jets (C).
Q
(
22
) Carry out the connections described in the figure. Rest
the antenna cable on the roof. Reposition the panel, reconnect
the leads, fix the screws, put on the screw caps.
In the instance where a cable radio system is present, connect it
to the electrical box, as indicated.
8
Summary of Contents for frame in2
Page 15: ......
Page 18: ...18 2 SX DX 3 4 M6x10 6 4x12 4 2 1 M8 8 4x17 1 2...
Page 19: ...19 7 mm 7 mm 5 4 1 3 6 A B 2 3 1 2 2 2 2 3 4 4...
Page 20: ...20 2 4 6 mm 5 6 4 2x32 5 3x10 3 1 18 mm 5...
Page 21: ...21 21 1 3 6 mm 4 5 4 2x32 5 3x10 2 18 mm 5b...
Page 22: ...22 1 2 4 3 5 5 3 M5x12 M5x12 M6x10 6 4x12 6 6 mm 4 5 3 4 2x32 5 3x10 1 6 1 2 4 8x16 7...
Page 23: ...23 1 2 3 3 4 M6x16 8...
Page 24: ...24 3 1 3 2 M6x16 9 6 mm 3 4 2 4 2x32 5 3x10 OK 1 10...
Page 25: ...25 4 1 2 3 11...
Page 26: ...26 4 3 2 x2 1 12...
Page 27: ...27 C 1 x6 13...
Page 28: ...28 5 4 1 3 A A B C B 2 14...
Page 32: ...32 2 2 1 1 OK 2 1 16...
Page 33: ...33 M DX SX 17...
Page 34: ...34 2 2 2 2 1 4 4 2x45 3 4 2x45 OK 18...
Page 35: ...35 2 3 1 4 1 19...
Page 36: ...36 1 2 3 C B A A 1 2 4 4 3 5 6 6 20 21...
Page 37: ...37 1 2 3 AUX AUX 5 6 4 7 R R L L 22 antenna aerial antenne Antenne antena...
Page 38: ...38 2 3 1 B A B 3 A B A 23 1 3 1 2 3 4 DX SX 5 24...
Page 39: ...39 2 5 4 3 3 9x13 C B C B C 1 25...
Page 40: ...40 2 2 5 6 3 1 4 4 26...
Page 41: ...41 1 1 3 5 5 3 M M 6 6 5 mm 2 5 mm 5 mm 4 5 mm 27...
Page 42: ...42 2 OK 1 4 3 28...
Page 43: ...43 3 3 2 1 1 2 2 29...
Page 44: ...44 4 1 2 3 2 3 1 4 30...
Page 45: ...45 F 31...
Page 46: ......
Page 59: ......
