7
To align the first pair of photocells, proceed as follows:
• Turn on the power.
• Move the photocell until you find the location where
the flashing of LED
L2
is the fastest.
• Position the photocell at the most suitable height and
secure the collar to the column by means of self-drilling
screw (detail
I,
Figure 8
).
• Adjust the orientation along the horizontal axis by
means of a screwdriver, using the appropriate notch
on the photocell (detail
M, Figure 9
). Once found the
best position, block the photocell by means of the screw
(detail
N, Figure 9
).
NOTE: under optimal alignment conditions it is possible
that LED
L2
remains solidly lit.
• Repeat the same procedure for all photocells pairs.cks.
6
Testing
Testing allows for the verification of the correct operation
of the photocells and of possible interference caused by
other nearby devices that transmit infrared.
Activate the control device to which the photocells are
connected.
With a cylindrical object with a diameter of about 50mm,
interrupt the beam of infrared light several times right in
the middle of the photocells. Repeat the same operation
by positioning yourself near the TX photocell, and then
near the RX photocell; perform the operation in all phases
of operation of the control device.
If the control device correctly detects each interruption at
all points, the test is successfully completed.
When installing two or more pairs of photocells, repeat the
same procedure, taking care to check for any interference
between them.
If when interrupting the beam between the photocells the
output contact remains closed(does not switch) but the
LED
L3
on the RX switches off too, this signifies that there
could be a fault: check that the power supply is sufficient
and that the output relays are functioning. If the problem
persists, contact technical support.
7
Maintenance
Perform scheduled maintenance every 6 months and
verifying the cleanliness and operation of all the photocells.
If there is dirt, moisture, insects or anything else, clean the
photocell and rerun the test procedure.
If presence of oxidation is detected on the printed circuit,
evaluate its replacement.
8
Disposal
The product must always be uninstalled by qualified
personnel using the appropriate procedures for the proper
removal of the product.
This product is made of various types of materials, some
may be recycled others must be disposed of in compliance
with local recycling and disposal regulations as they
pertain to this category of product.
The disposal of this product as household waste is
prohibited. Carry out “separate collection” for disposal in
accordance with the methods established by local
regulations; or return the product to the retailer when
buying an equivalent new product.
Local regulations may provide for heavy
penalties for illegal disposal of this product.
Warning: some parts of the product may
contain pollutant or hazardous substances,
that if dispersed could cause harmful effects
to the environment and to human health.
9
Declaration of conformity
The undersigned, representing the following manufacturer
Roger Technology
Via Botticelli 8
31021 Bonisiolo Mogliano V.to (TV)
DECLARES that the equipment described below:
Description: Photocell for automatic opening
Model: T90
Complies with the legal requirements of the following
directives:
• 2004/108/EEC
• 2006/95/EEC
• 2011/65/EEC
And that all the standards and/or technical specifications
listed below have been applied:
EN 61000-6-2; EN 61000-6-3
Last two digits of the year in which the labelling was affixed
|
15.
Location: Mogliano V.to
Date: 24-05-2015 Signature
