FAAC 595 I, Manual

15

ENGLISH

2. INSTALLATION LAYOUT

4.2.

INSTALLATION OF OPERATOR

Accessories of the 

FAAC 595 I/S

 are supplied in two versions:

•

“Welded assembly”: welded telescopic arms, drive
shafts, and mounting brackets.

•

“Screw assembly”: all accessories feature screw-on
attachment.

Straight or curved telescopic arms are available for both
versions.
The present instructions refer to “screw assembly”.

4.3.

POSITIONING OF TELESCOPIC ARMS

Ensure that there is a gap 

(S - fig.7)

 of at least 

15 mm

between the existing cross bar and the frame. This is
essential if straight telescopic arms are to rotate correctly
as shown in 

fig.11

.

If gap 

(S) 

is less than 

15 mm

, the special curved telescopic

arm must be used instead, and installed as shown in 

fig.9

.

Refer to 

fig.4

 to fix brackets 

(D)

 to the upright member as

close as possible to the upper support of the existing cross
bar. Fit the outer profiles of the arms. Respect maximum
door dimensions as per the technical specifications and
install either one operator 

(FAAC 595 I)

 at the centre of the

door 

(fig.8)

 or two operators at the sides of the door 

(595

I and 595 S)

, 

(fig.9).

4.4.

POSITIONING THE BACK PLATE / OPERATOR /
DRIVE SHAFTS

The back plate 

(Z)

 features two holes 

(M)

 and 

(N)

 which

allow for fixture to the upper cross bar of the door as
indicated in 

A

 and 

B

 of 

fig.4

.

In the case of door heights of less than 

2100 mm

, fit the

backplate on the upper cross bar by means of 

(M)

 (see 

A

).

With door heights above 

2100 mm

, fit the backplate by

means of 

(N)

 (see 

B

, 

fig.4

).

Drill two 6 mm holes 

(U)

 for backplate fixture onto the

central reinforcement ribbing of the door (

fig.4

). If the door

frame is not sufficiently sturdy (thin sheet) use nuts and bolts.
Alternatively, use self-tapping screws.
Locate the point of rotation of the drive shaft at 

10 cm

below the bottom pivot of the door’s own arm as shown in

figs. 11 and 13

.

Remove bleed screw 

(F)

 and secure the operator by means

of mounting brackets 

(S)

 on the backplate as shown 

in fig.4.

Disconnect the operator and open the garage door as
indicated in 

fig.10

 and turn the operator drive gear in the

direction of the arrow to the piston limit. Rotate though
approx. 5° in the opposite direction.
Close the garage door and fit drive shafts 

(T- fig.4)

 over the

operator drive gears and cut to size as shown in 

figs. 8/9

.

Fit bushings 

(C)

 and brackets 

(L)

 on the drive shafts and

secure brackets 

(L)

 on the door reinforcement ribbing

taking care to maintain correct alignment of the drive
shafts.

Straight telescopic arm

: refer to 

fig.11

 - 

Curved telescopic

arm

: refer to 

fig.13

Open the garage door and position the telescopic arm as
indicated in 

figs. 11 or 13

. Cut the 

outer profile 

at point 

A

. Cut

the 

inner profile

 of the telescopic arm at reference point 

B

.

N.B.

 Leave a gap of about 1 cm at the ends of both profiles.

Insert the drive shafts 

(T)

 in the inner profile of the telescopic

arm 

(Q - fig.4),

 already cut to size, and drill an 8 mm hole.

Secure by means of an M8 bolt.
To ensure smooth door closing operation install a cushion
pad 

(T - fig.14). 

Alternatively, to prevent garage door off-

balance and ensure optimal operator functioning, construct
and install an “L” bracket as shown in 

fig.15

.

a

junction box

b

T 15 MP pushbutton

c

FAAC 595 I operator

d

Rx photocell

e

plus radio receiver

f

T 10 key-operated pushbutton

g

Tx photocell

3. DIMENSIONS

Fig. 18

Fig. 17

4. INSTALLATION

4.1.

PRELIMINARY CHECKS

Make sure that the dimensions of the door are within the
limits stated in the technical specifications. Make sure that
the door operates smoothly and has no stiff points. If
necessary, clean the tracks and lubricate them with a
silicon based lubricant. Do not use grease. Check the
condition of all door bearings and joints. Remove the
manual door locks so that when the door is closed it will be
locked only by the automation system. Make sure that
there is a 

230 Vac

 power supply point in the garage, and

that it is protected by an adequate residual current circuit-
breaker.
The 

FAAC 595 I

 automation system is designed to operate

various types of garage doors with counterweights. 

Figs. 1

,

2

, and 

3

 show the most common types: canopy door,

articulated panel, horizontal tracks. Either metal blocks or
bricks can be used as counterweights, though some door
manufacturers use springs instead of weights. Check in any
case that the door pivots correctly when opening and
closing.