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ENGLISH

The equipment is endowed with two groups of microswitches -
DS1 (fig. 18) and DS2 (fig.19) - which make it possible to program
the gate operation parameters.

5.1. MICROSWITCHES DS1 (fig. 18)

Leaf 1 and 2 force

By using microswitches SW1, SW2 and SW3, the force (and thus
anti-crushing safety) of the operator connected to leaf 1 can be
programmed. The same operation has to be repeated on the
motor connected to leaf 2, by using microswitches SW4, SW5 and
SW6.

Function logic

The automated system's function logic can be selected with
microswitches SW7, SW8, SW9 and SW10. By selecting an automatic
logic (A, SP), the combination of microswitches enables selection
of pause time too (waiting time, in opening position, before
automatic re-closing).
The available logics - their operation is described in tables 3/a-
b-c-d-e-f, are as follows: A - SP (Automatic), E - EP - B (Semi-
automatic), C (Dead-man).

Closing leaf delay

Programming of microswitches SW11 and SW12 enables delay of
the closing start of leaf 1 with respect to leaf 2, in order to avoid
the leaves overlapping during movement, and thus increase the
safety of the system.

5. MICROSWITCH PROGRAMMING

Fail safe

Programming the microswitch SW3 makes it possible to activate
or de-activate the photocells control test. When Fail safe is active,
the equipment checks the photocells before every opening or
closing movement.

Reversing over-pushing stroke

By using the microswitch SW4, you can activate the "reversing
stroke" and the "over-pushing stroke". The "reversing stroke" pushes
the leaves to close for a few moments before opening the gate,
thus facilitating release of the electric lock. The "over-pushing
stroke" commands a closing thrust at full force when the gate has
already reached its stop limit, thus facilitating the locking of the
electric lock.

SW1

OFF

SW2

OFF

SW3

OFF

SW4

OFF

OPENING LEAF DELAY (s)

CLOSING PHOTOCELL LOGIC

REVERSES IMMEDIATELY

REVERSES ON RELEASE

FAIL SAFE

YES

REVERSING STROKE

+ OVER-PUSHING STROKE

YES

Fig. 19

Fig. 18

SW12

OFF

1 (MIN)

SW1

OFF

SW2

OFF

SW3

OFF

8 (MAX)

OFF

10 11 12

1 (MIN)

SW4

OFF

SW5

OFF

SW6

OFF

8 (MAX)

OFF

SW7

SW8

OFF

SW9

OFF

SW10

OFF

120

SW11

OFF

DS1

DS2

LEAF 1 FORCE

LEAF 2 FORCE

LOGIC

PAUSE (s)

CLOSING LEAF

DELAY (s)

6. START-UP

6.1. LED CHECK

The table below shows the status of the LEDs in relation to to the
status of the inputs.
Note the following:

LIGHTED

= closed contact

OFF

= open contact

Check the state of the LEDs as per Table.

Operation of the status signalling LEDs

LEDs

LIGHTED

OFF

OP_A

Command activated

Comando inattivo

OP_B

Command activated

Comando inattivo

STOP

Command inactive

Command activated

FSWCL

Safety devices disengaged

Safety devices engaged

FSWOP

Safety devices disengaged

Safety devices engaged

FCA1

(if used)

Limit-switch free

Limit-switch engaged

FCC1

(if used)

Limit-switch free

Limit-switch engaged

FCC2

(if used)

Limit-switch free

Limit-switch engaged

FCA2

(if used)

Limit-switch free

Limit-switch engaged

DL10

Gate closed at rest:

OFF

Gate moving or on

pause:

like indicator-light

Time learning:

flashes rapidly

NB.:

The status of the LEDs while the gate is at rest are shown in

bold.

Furthermore, the DL10 LED is on the board and functions as
detailed in the following table:

5.2. MICROSWITCHES DS2 (fig. 19)

Opening leaf delay

Programming of microswitch SW1 enables delay of the opening
start of leaf 2 with respect to leaf 1, in order to avoid the leaves
obstructing each other during the initial stage of movement.

Closing photocells logic

By using microswitch SW2, you can select the type of behaviour
of the automated system if the photocells protecting the gate
closing movement are engaged. You can obtain either immediate
reversing of the leaves or a stop followed by reversing when the
photocells are disengaged.