OVO

IT Istruzioni ed avvertenze per l’installazione e l’uso

EN Instructions and warnings for installation and use

FR Consignes et avertissements pour l’installation et l’utilisation

ES Instrucciones y advertencias para la instalación y el uso

Made in Italy
Contents 1. General warnings
1. General warnings 3
1.1 - Safety warnings 3
1.2 - Installation warnings 3
1.1 - Safety warnings

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2. Product description 4
CAUTION!
2.1 - Operating limits 4
2.2 - Typical system 4 - This manual contains important safety instructions and
warnings. Incorrect installation could lead to serious injury.
2.3 - List of cables 4
Before starting, please read all sections of the manual care-
3. Installation 6
fully. If you are unsure about something, stop installation
3.1 - Preliminary checks 6 immediately and contact KING-gates Customer Service for
3.2 - Fitting OVO 6 assistance.
3.2.1 - Assembly of guide supplied GRO33 6 - Important: please retain this manual for future maintenance
3.2.2 - Assembly of guide supplied GRO13 6 work and product disposal.
3.2.3 - Fitting the gearmotor to the guide 8
3.2.4 - Mounting the gearmotor to the ceiling 8 1.2 - Installation warnings
3.3 - Installation of other devices 9 • Before beginning the installation procedure, check that this prod-
3.4 - Electrical connections 9 uct is suitable for the intended use (see sections 3.1 and 3.2). If
3.5 - Description of the electrical connections 10 unsuitable, do NOT proceed with installation.
3.6 - Connecting OVO to the mains 11 The contents of this manual refer to an installation like the one
3.7 - Preliminary checks 11 shown in fig. 1.
3.7.1 - Recognition of the door opening and closing positions 11 • Taking into account the hazards which could occur during in-
3.7.2 - Checking door movements 11 stallation and product operation, the automation system should be
3.7.3 - Preset functions 12 installed according to the following procedure:
3.7.4 - Radio receiver 12 - Ensure there is a system device which is a means of disconnec-
3.7.5 - Memorisation of radio transmitters 12 tion from the supply mains. This device must have a contact sepa-
ration in all poles which ensures full disconnection under overvolt-
3.7.6 - Mode I memorisation 12
age category III conditions.
3.7.7 - Mode II memorisation 12
- All installation and maintenance operations must be carried out
3.7.8 - "Remote" memorisation 12
with the automation system switched off and the power supply dis-
3.7.9 - Deleting the radio transmitters 13
connected. If the disconnection device is not visible from where the
4. Testing and commissioning 13 automation system has been installed, a sign must be attached to
4.1 - Testing 13 it before attempting any work. The sign should read: "CAUTION!
4.2 - Commissioning 13 MAINTENANCE WORK IN PROGRESS”.
5. Maintenance 14 - The product must be connected to a power supply line equipped
6. Disposal of the product 14 with safety grounding system.
6.1 - Disposal of the buffer battery (if present) 14 - Take care not to crush, bang, drop or spill any kind of liquid on
7. Additional information 14 the automation system during installation. Do not keep the product
7.1 - Programming keys 14 close to sources of heat or open flames. Doing so may damage it,
7.2 - Programming 14 corrupt it or lead to hazardous situations. If this were to happen,
7.2.1 - Level 1 programming (ON-OFF functions) 15 stop installation immediately and contact KING-gates Customer
7.2.2 - Level 1 programming (ON-OFF functions) 15 Service.
7.2.3 - Level 2 programming (adjustable parameters) 16 - Do not make alterations to the product in any way. Improper use
7.2.4 - Level 2 programming (adjustable parameters) 16 can only lead to malfunctions. The manufacturer declines all liability
for damage caused by arbitrary modifications to the product.
7.3 - Adding or removing devices 17
7.3.1 - STOP input 17 - This product is not intended for use by people (including children)
with reduced physical, sensory or mental capabilities or who lack
7.3.2 - Photocells 17
experience and knowledge, unless they have been given supervi-
7.3.3 - Electric lock 18 sion or instruction concerning the use of the product by a person
7.4 - Special functions 18 responsible for their safety.
7.4.1 - "Always open" function 18 - The product is not intended as an intruder protection system. Ad-
7.5 - Connection of other devices 18 ditional devices must be installed alongside the automation system
8. Troubleshooting 19 to guarantee effective protection.
8.1 - Diagnostics and signals 19 - Do not allow children to play with the fixed control devices. Keep
8.1.1 - Flashing light and courtesy light signals 19 remote control devices out of their reach as well.
8.1.2 - Control unit signals 20 - The automation system must not be used until it has been com-
9. Technical specifications 21 missioned as described in chapter 5 ("Testing and commissioning").
10. CE Declaration of conformity 22 - The packing materials of the product must be disposed of in com-
pliance with local regulations.

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 2. Product description
OVO is a gearmotor designed for the automation of sectional doors.
OVO operates using electric power. In the event of a power failure, the gearmotor can be released in order to move the door manually.
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2.1 - Operating limits

Chapter 9 (“Technical specifications”) provides the data needed to determine whether the product is suitable for the intended application.
Its structural characteristics make it suitable for use on sectional doors within the limits shown in tables 1, 2 and 3.
Table 1 - OVO gearmotor operating limits
Model: SECTIONAL door
OVO550 Height: 2.4 m Width: 3.7 m

The measurements in table 2 are to be taken as a guideline and are for general estimate purposes only. The effective suitability of OVO for
automating a specific door depends on the degree of door leaf balancing, guide friction and other aspects, including occasional phenomena
such as wind pressure or the presence of ice, which could obstruct leaf movement.
To establish effective conditions, the force required to move the leaf throughout its stroke must be measured to ensure that this value does not
exceed the "nominal torque" specified in section 9 ("Technical specifications”); also, to calculate the number of cycles/hour and consecutive
cycles, the data in tables 3 and 4.must be taken into account.
Table 2 - Limits related to leaf height
Leaf height (metres) Max. no. of cycles/hour Max. no. of consecutive cycles
up to 2 16 8
2÷2.4 12 6

Table 3 - Limits in relation to force required to move door leaf

Force required to move leaf N Cycle reduction percentage
Up to 200 100%
200÷300 70%
300÷400 25%

The height of the door enables the maximum number of cycles per hour and consecutive cycles to be calculated, while the force required
to move the door enables the percentage of cycle reduction to be determined; for example, if the leaf height is 2.2 m, this would enable 12
cycles per hour and 6 consecutive cycles, but if a force of 250 N is required, these would have to be reduced to 70%, resulting therefore in 8
cycles per hour and around 4 consecutive cycles.
To avoid overheating, the control unit has a limiter that is based on the motor operation and duration of cycles, and trips when the maximum
limit is exceeded.
N.B.: 1 kg = 9.81 N, for example, 500 N = 51 kg

2.2 - Typical system

Fig. 1 shows a typical system for automating a sectional door. c Main edge
a OVO d Flashing light with incorporated aerial
b Photocells e Key-operated selector switch

2.3 - List of cables

Table 5 shows the specifications of the cables needed to connect up the various devices.
The cables used must be suitable for the type of installation. For example, an H03VV-F type cable is recommended for indoor applications.
Table 4 - List of cables
Connection Cable type Maximum length allowed
Flashing light with aerial 1 2x0.5 mm2 cable 20 m
1 RG58 type shielded cable 20 m (recommended less than 5 m)
Photocells 1 2x0.25 mm2 cable for TX 30 m
1 4x0.25 mm cable for TX
2
30 m
Key-operated selector switch 2 2x0.5 mm cables (note 1)
2
50 m
Note 1: a single 4x0.5mm2 cable can be used instead of two 2x0.5mm2 cables.

2
1
a

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d

b
b
c

3
 3. Installation
The installation of OVO must be carried out by qualified personnel in • Components must never be immersed in water or other liquids.
compliance with current legislation, standards and regulations, and • Keep all OVO components away from heat sources and open
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the directions provided in this manual. flames; these could damage the components and cause malfunc-
3.1 - Preliminary checks tions, fire or dangerous situations.
• If the door includes an access door, make sure that it does not
Before proceeding with the installation of OVO you must: obstruct normal travel. Fit a suitable interlock system if necessary.
• Verify and ensure after installation that no door parts obstruct pub- • Only insert the OVO plug into sockets equipped with a safety
lic roadways or pavements. grounding system.
• Check that all the materials are in excellent condition, suitable for • The socket must be protected by suitable magneto-thermal and
use and that they conform to the standards currently in force. differential switches.
• Make sure that the structure of the gate is suitable for automation.
• Make sure that the force and dimensions of the door fall within the
3.2 - Fitting OVO
specified operating limits provided in chapter 2.1 ("Operating limits”). Installation of the OVO gearmotor comprises 3 stages:
• Check that the static friction (that is, the force required to start the • Assembly of GRO33 and GRO13 guides (see sections 3.2.1 and
movement of the leaf) is less than half the "maximum torque", and 3.2.2).
that the dynamic friction (that is, the force required to keep the leaf • Mounting the gearmotor to the guide (see section 3.2.3)
in movement) is less than half the "nominal torque". Compare the re-
sulting values with those specified in section 9 ("Technical specifica-
3.2.1 - Assembly of guide supplied GRO33
tions"). The manufacturer recommends a 50% margin on the force, The guide that is supplied with GRO33 must be assembled as fol-
as unfavourable climatic conditions may cause an increase in the lows:
friction. 01. Referring to fig. 4, remove the belt tensioner device (4a); insert
• Make sure that there are no points of greater friction in the opening one end of the belt into the pulley (4b); reintroduce the belt tensioner
or closing travel of the door. device into the guide (4c).
• Make sure that the mechanical stops are sturdy enough, and that 02. Pass the same end of the belt through the head [A], as in fig. 5.
there is no danger of the door derailing. NB - Make sure that the belt is correctly positioned: it must be with
the teeth facing inwards, straight and without twists.
• Make sure that the door is well balanced: it must not move by itself
when left stationary in any position. 03. Turn the lower section of the carriage so that the grooves cor-
respond with the two ends of the belt, as in fig. 6.
• Make sure that the mounting positions of the various devices (pho-
tocells, keys, etc.) are protected from impact and that the mounting 04. Place both ends of the belt into all the shaped slots of the lower
carriage [B]. Secure the ends of the belt with the 2 screws (V4.2x9.5)
surfaces are sufficiently sturdy.
and 2 washers (R05), as in fig. 7.
• Make sure that the minimum and maximum clearances specified in
05. Fix the belt guide [C] to the upper carriage [D] with the V6x18
fig. 2 and 3 are observed.
screw and related M6 nut, as in fig. 8.
2 C 2970 mm D 410 mm
06. Insert the upper carriage [D] into the lower carriage [B] and place
the entire carriage assembly inside the guide, as in fig. 9.
07. Hammer the three pieces of the guide into place inside the con-
nection brackets [E], as in fig. 10 and 11. Important – the guides
B 0÷400 mm
A 40÷400 mm

must slide into the brackets until they click into position.
08. Carefully position the belt into the guide, making sure that it is
not twisted.
09. Push the head [A] into the free end of the guide using significant
force, as in fig. 12.
10. Finally, tension the belt with the adjustment screw [F] of the belt
tensioner device, as in fig. 13.

3 CAUTION! the gearmotor could break if the belt is TOO

taut, and it could cause unpleasant noise if it is TOO slack.
260 mm

3.2.2 - Assembly of guide supplied GRO13

The GRO13 guide is already assembled. All you have to do is ten-
sioning the belt using the M8 nut [F] (fig. 13) until it is sufficiently taut.
260 mm

• Check and ensure that the manual release is fitted at a maximum

height of 1.8 m.
4
4a 8
1

3 D

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4 C

4b 9 D

4c

10
E
5
E
A
11

6
12

13
F

5
 3.2.3 - Fitting the gearmotor to the guide
17
01. Fit the OVO gearmotor output shaft to the guide head [A] and
secure using 4 M6.3x38 screws [G] (fig. 14). The gear motor rotates
and can be positioned in three different ways (fig. 3).

14
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3.2.4 - Mounting the gearmotor to the ceiling 18

01. On the basis of distances A, B and C in fig. 2 and 3, trace the
two fixing points of the front guide bracket at the centre of the door.
On the basis of the type of support surface, the front bracket can be
fixed with rivets, plugs or screws (fig. 15). If distances A, B and C
(fig. 2 and 3) are sufficient, the bracket can be fixed directly onto the
ceiling.

15

06. Ensure that the guide is perfectly horizontal, then cut off the ex-
cess section of the brackets with a saw (fig. 19).
02. After drilling the holes in the relative points, leaving the gearmotor
on the ground, lift the guide from the front section and secure using 19
two screws, plugs or rivets, according to the installation surface.
03. Secure the brackets [H] using the screws [I] and nuts [L], select-
ing the hole most suited to ensure distance B, as shown in ( fig. 16)

16
L

07. With the door closed, pull the cord to release carriage [M] from
I
the guide (fig. 20).

B 0÷400 mm 20

04. Using a ladder, lift the gearmotor until the brackets are touching M
the ceiling. Trace the drilling points and then return the gearmotor to
the ground.
05. Drill at the outlined points and then, using a ladder, lift the gear-
motor until the brackets are placed against the drilled holes (fig. 17)
and secure using screws and plugs suited to the support surface
(fig. 18).

08. Slide the carriage until the leaf connecting bracket [N] (fig. 21) on
the upper edge of the door is perfectly perpendicular to the guide [O].

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 21 3.4 - Electrical connections
O 01. Open the cover by loosening the screw (fig. 24) and pushing the
button (fig. 25).

24

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N

09. Then secure the leaf connecting bracket [N] with rivets or screws
(fig. 21). Use screws or rivets suited to the leaf material, and ensure
that they are able to withstand the maximum force required for leaf
opening and closing. 25
10. Loosen the screws of the two mechanical stops, then move the
front mechanical stop [P] in front of the carriage (fig. 22).

22 Q

02. Remove the small disc [S] with a screwdriver (fig. 26).

26
11. Push the carriage in the closing direction and, on reaching the
position, tighten the screw [Q] fully down.
12. Manually open the door to the required opening position, move S
the rear mechanical stop [R] next to the carriage (fig. 23) and tighten
the screw [Q] fully down. Important! - Make sure the release cord
can be pulled below a height of 1.8 m.

23
R

03. Feed the cables through the hole [S] (fig. 27).

27 S
Q

3.3 - Installation of other devices

If other devices are needed, install them following the directions pro-
vided in the corresponding instructions. Check the devices which
can be connected to OVO in fig. 1 and in section 3.5 ("Description of
electrical connections").

04. Refer to fig. 28 and the connection descriptions in table 5 when

making the connections:
- if using photocells, remove the wire clip between terminals 3 and 7
and follow the connection diagram in fig. 28.
- if using the flashing light aerial, remove the wire clip (connected to
terminal 2 as standard) and connect the RG58 shielded cable.

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 05. Once you have connected up all the cables, secure them using 06. To close the cover, push it back into place, making sure you hear
cable clips. a "click". Reinsert and tighten the screw to finish.

28
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3.5 - Description of the electrical connections

The following is a brief description of the electrical connections (table 5); for further information, please read section 7.3 ("Adding or removing
devices").
Table 5
Terminals Function Description
1–2 Aerial connection input for the radio receiver aerial.
3–4 Step-by-step input for devices which control movement. It is possible to connect "Normally Open" devices to this input.
5–6 Stop input for the devices which block or eventually stop the manoeuvre in progress; contacts like "Normally
Closed", "Normally Open" or constant resistance devices can be connected up using special procedures
on the input.
Please refer to section 7.3.1 ("STOP Input") for further information about STOP.
3-7 Photo input for safety devices such as photocells. They cut-in during closure,
reversing the manoeuvre. "Normally closed" contacts can be connected.
Further PHOTO information can be found in section 7.3.2 ("Photocells").
6–8 Phototest Whenever a manoeuvre starts, the relative safety devices are checked and only if everything is in order
will the manoeuvre start.
All this is only possible if a special configuration of the connections is used; in practice, the "TX" photocell
transmitters are powered separately from the "RX" receivers. Further connection information can be found
in section 7.3.2 ("Photocells").
9 – 10 Flashing light a flashing light can be connected on this output with a car type 12 V 21 W lamp. During the manoeuvre
the unit flashes at intervals of 0.5 s.

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3.6 - Connecting OVO to the mains During these manoeuvres, the control unit memorises the force re-
quired for opening and closing.
If the L2 and L3 LEDs flash at the conclusion of the recognition pro-
CAUTION! cess, it means that an error has occurred; see section 8 ("Trouble-
- Never cut or remove the cable supplied with OVO. shooting").

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- If not already available, a power socket for connecting OVO Important! - It is important that these manoeuvres are not interrupt-
to the mains must be made by qualified and experienced per- ed, e.g. by a STOP command. If this occurs, the recognition process
sonnel in strict observance of current legislation, standards described in point 01 must be repeated.
and regulations. The recognition stage of the positions, and of the STOP and PHOTO
OVO must be connected to the supply mains by a qualified input configuration, can be repeated again at any time, even after the
electrician. installation (for example, if one of the mechanical stops is removed);
just repeat the procedure starting from step 01.
To test OVO, just insert the plug into a power outlet, using an exten-
sion cord if necessary (fig. 28). 30
28
P1
L1 P2
L2
L3 P3

CAUTION! During the position search process, if the belt

3.7 - Preliminary checks is not sufficiently tensioned, it may slip on the pinion. If this
occurs, press the P2 key to interrupt recognition; tension the
As soon as OVO is energised, you should check the following:
belt by tightening the M8 nut (F) as shown in fig. 31, then re-
01. Check that the LED [U] is flashing normally with around 1 flash peat the recognition process from point 01.
per second (fig. 29).
31
29 F

Recognition of the door opening and closing positions is only

possible after the radio transmitter memorisation and deletion
time interval has elapsed (see section 3.7.5 "Radio receiver").
3.7.2 - Checking door movements
3.7.1 - Recognition of the door opening and
Once the opening and closing positions have been recognised, it is
closing positions advisable to carry out a number of manoeuvres in order to check the
The control unit must be made to recognise the opening and closing door travels properly.
positions of the door. In this phase, the door stroke from the clos- 01. Press the P3 key to open the door. Check that the door opens
ing mechanical stop to the opening mechanical stop is detected. In normally, without any variations in speed; the door must only slow
addition to position, the STOP input configuration is detected and down and stop when it is close to the opening mechanical stop.
memorised in this phase as well as the existence or non-existence of 02. Press the P3 key to close the door. Check that the door closes
the PHOTO input "Phototest". normally, without any variations in speed; the door must begin the
01. Ensure that the drive belt is correctly tensioned and that the two slow down when it is between 30 and 20 cm. from the closing me-
mechanical stops are fully secured. chanical stop, and then stop. A brief opening manoeuvre is then per-
02. Engage the carriage. formed to release belt tension.
03. Press the P2 and P3 keys and hold them down (fig. 30). 03. During the manoeuvre, check that the flashing light (if any) flashes
at a speed of 0.5 seconds on and 0.5 seconds off.
04. Release the keys when the manoeuvre starts (after approx. 3 s).
04. Open and close the gate several times to make sure that there
05. Wait for the control unit to complete the recognition stage: clos- are no points of excessive friction and that there are no defects in the
ing, opening and closing again of the door. assembly or adjustments.
06. Push the P3 key to perform a complete opening manoeuvre. 05. Check that the fastening of the gearmotor, the guide and the
07. Push the P3 key to close. mechanical stops are solid, stable and suitably resistant, even if the
9
 door accelerates or decelerates sharply. Examples of Mode II memorisation:
3.7.3 - Preset functions 1st example of Mode II memorisation
The OVO control unit has a number of programmable functions. T1 Key "Open" command Automation A
These functions are set to a configuration which should satisfy most
T2 Key "Close" command Automation A
automations. However, the functions can be altered at any time by
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means of a special programming procedure (see section 7.2 "Pro- T3 Key "Partial opening" command Automation A
gramming"). T4 Key "Partial opening" command Automation A
3.7.4 - Radio receiver 2nd example of Mode II memorisation
A radio receiver is incorporated in the control unit of OVO for remote T1 Key "Open" command Automation A
control, operating at a frequency of 433.92 MHz and compatible with T2 Key "Close" command Automation A
the following types of transmitter:
T3 Key "Step-by-step" command Automation B
Clipper, Stylo 4, Stilo 4K, Myo C4, Novo TX and Novo Digy
T4 Key "Step-by-step" command Automation C
Up to 160 transmitters can be memorised.
3.7.5 - Memorisation of radio transmitters 3.7.6 - Mode I memorisation
Each radio transmitter is recognised by the radio receiver by means 01. Press the P1 key on the control unit and hold it down (approx. 4
of a "code" which is different from that of any other transmitter. A s).
"memorisation" phase must therefore be performed in order to allow 02. Release the key when the L1 LED on the control unit lights
the receiver to recognise each single transmitter. Transmitters can be up.
memorised in 2 ways: 03. Within 10s, press any key on the radio transmitter to be memo-
Mode I: in this mode, the function of the transmitter keys is fixed and rised and hold it down for at least 3s.
each key corresponds to the command in the control unit shown in 04. If the memorisation procedure is successful, the radio LED on the
Table 7; a single memorisation phase is carried out for each transmit- control unit will flash 3 times.
ter, during which all the transmitter keys are memorised. A transmitter 05. If there are other transmitters to memorise, repeat step 3 within
can normally only control a single automation in Mode I. another 10 seconds.
Mode II: In this mode, each transmitter key can be associated with The memorisation phase finishes if no new codes are received for
one of the 4 possible control unit commands shown in Table 8; only 10 seconds.
one key is memorised for each stage, namely the one which was
pressed during memorisation. One memory section is occupied for
3.7.7 - Mode II memorisation
each key. 01. Press the radio key on the control unit as many times as the
number corresponding to the desired command, according to table
In Mode II, different keys on the same transmitter can be used in 8.
order to give the same automation more than one command or to
02. Make sure that the radio LED on the control unit makes as many
control more than one automation. For example, in the 1st example
flashes as the number corresponding to the desired command.
of Mode II memorisation, only automation "A", is controlled, and the
T3 and T4 keys are associated with the same command. Alterna- 03. Within 10s, press any key on the radio transmitter to be memo-
tively, three automations are controlled in the 2nd example of Mode rised and hold it down for at least 3s.
II memorisation, namely "A"(keys T1 and T2), "B" (key T3) and "C" 04. If the memorisation procedure is successful, the LED on the re-
(key T4). ceiver will flash 3 times.
Memorisation and deletion of transmitters must be performed If there are other transmitters to memorise for the same type of com-
within the first 10 seconds after powering up the unit. In this mand, repeat step 3 within another 10 seconds.
time interval, the control unit key [P1] is used for radio memo- The memorisation phase finishes if no new codes are received for
risation and deletion functions. 10 seconds after the last flash 10 seconds.
of the L1 LED or after the last key is pressed, the key is disa- 3.7.8 - “Remote” memorisation
bled and the L1 LED is dedicated to programming. The cour-
tesy light flashes once to indicate the end of the interval in A new radio transmitter can be memorised without directly operat-
which radio memorisation functions are enabled. ing the keys on the receiver. You need to have a pre-memorised and
operational radio transmitter. The new radio transmitter will "inherit"
Table 7 - Mode I commands the characteristics of the old one, i.e. if the old radio transmitter was
memorised in Mode I, the new one will also be memorised in Mode
T1 Key "Step-by-step" command
I. In this case, during the memorisation stage you can press any key
T2 Key "Partial opening" command on the transmitters. If, on the other hand, the old transmitter was
T3 Key "Open" command memorised in Mode II, the new one will also be memorised in Mode
II. Subsequently, you must press the key on the old transmitter which
T4 Key "Close" command
corresponds to the desired command, and the key on the new trans-
NB: two channel transmitters only have T1 and T2 keys. mitter to which you wish to associate that command.

CAUTION! - Programming via radio may be done on all

Table 8 - Commands available in Mode II the receivers within the range of the transmitter. Therefore,
1. "Step-by-step" command only the one involved in the operation should be kept switched
2. "Partial opening" command on.
Holding the two transmitters, position yourself within the operating
3. "Open" command
range of the automation and perform the following operations:
4. "Close" command
01. Press the key on the new radio transmitter and hold it down for
at least 5s, then release it.
02. Press the key on the previously memorised transmitter slowly 3
times.
10
03. Press the key on the new radio transmitter once slowly. to assist the system for the reduction of the impact force, try to find
At this point the new radio transmitter will be recognised by the re- the adjustment that gives the best results.
ceiver and will assume the characteristics of the previously memo-
rised one.
4.2 - Commissioning
If there are other transmitters to be memorised, repeat all the steps 01. Commissioning can take place only after all testing phases have
been completed successfully. Partial commissioning or use of the

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above for each new transmitter.
system in "makeshift" conditions is not permitted.
3.7.9 - Deleting the radio transmitters 02. Prepare and store the technical documentation for the automa-
01. Press the P1 key on the control unit and hold it down. tion for at least 10 years. This must include at least: an assembly
02. Wait until the L1 LED lights up, then wait until it goes off, then drawing of the automation, a wiring diagram, an analysis of hazards
wait until it has flashed 3 times. and solutions adopted, a manufacturer’s declaration of conformity of
03. Release the radio key precisely upon the third flash. all the devices installed (for OVO use the annexed CE declaration of
conformity); a copy of the automation system instruction manual and
If the procedure is successful, after a few moments the LED will flash maintenance schedule.
5 times.
03. Post a permanent label or sign near the door detailing the release

4. Testing and and manual manoeuvre operations (refer to the figures in "Instruc-
tions and warnings for users of the OVO gearmotor").

commissioning 04. Post a permanent label or sign near the door containing this pic-
ture (min. height 60 mm).

This is the most important stage in the automation system installation

procedure in order to ensure maximum safety levels.
Testing can also be adopted as a method of periodically checking
that all the various devices in the system are functioning correctly.
Testing of the entire system must be performed by qualified and ex-
perienced personnel who must establish which tests to conduct on
the basis of the risks involved, and verify the compliance of the sys-
tem with applicable regulations, legislation and standards, in particu-
lar with all the provisions of EN standard 12445 which establishes the
test methods for automation systems for gates and doors.

4.1 - Testing
Each component of the system, e.g. safety edges, photocells, emer-
gency stop, etc. requires a specific testing phase. We therefore rec- 05. Post a label on the door providing at least the following data: type
ommend observing the procedures shown in the relative instruction of automation, name and address of manufacturer (person responsi-
manuals. ble for the "commissioning"), serial number, year of manufacture and
To test OVO, proceed as follows: "CE" marking.
01. Make sure that the provisions contained in chapter 1 ("WARN- 06. Prepare the declaration of conformity of the automation system
INGS") have been carefully observed. and deliver it to the owner.
02. Release the door by pulling the release cord downwards. Check 07. Prepare the "Installation instructions and warnings" of the auto-
that the door can be manually manoeuvred with a force no greater mation system and deliver it to the owner.
than 225N. 08. Prepare the maintenance schedule of the automation system and
03. Engage the carriage again. deliver it to the owner; it must provide all directions regarding the
04. Using the selector switch or the radio transmitter, test the open- maintenance of all the automation devices.
ing and closing of the door and make sure that the door moves in the 09. Before commissioning the automation system, inform the owner
intended direction. in writing regarding dangers and hazards that still exist (e.g. in the
05. The test should be carried out a number of times to make sure "Installation instructions and warnings").
that the gate moves smoothly, that there are no points of excessive
friction and that there are no defects in the assembly or adjustments.
06. Check the proper operation of all the safety devices, one by one
(photocells, safety edges, etc.). In particular, each time a device is
activated, the "OK" LED on the control unit quickly flashes twice,
confirming that the control unit has recognised this.
07. To check the photocells and make sure that there is no interfer-
ence with other devices, pass a 5 cm diameter, 30 cm long cylin-
der on the optical axis, first near TX, then near RX and finally at the
mid-point between them and make sure that in all these cases the
device is triggered, switching from the active to the alarm status and
vice-versa; finally, make sure that it causes the intended action in the
control unit; for example that it causes the reversal of the movement
during the closing manoeuvre.
08. If the dangerous situations caused by the movement of the door
have been safeguarded by limiting the force impact, the user must
measure the impact force according to the EN 12445 standard. If the
adjustment of the "speed" and control of the "motor force" are used
11
 5. Maintenance 7. Additional
The automation must be subjected to maintenance work on a regular
information
basis in order to guarantee it lasts.
EN

CAUTION! - The maintenance operations must be per- 7.1 - Programming keys

formed in strict compliance with the safety directions provid- The OVO control unit is fitted with 3 keys which can be used both for
ed in this manual and according to the applicable legislation the control of the unit during testing and the programming procedure:
and standards.
P1 Within the first 10 seconds after power-up, perform
If other devices are present, follow the directions provided in the cor-
the "RADIO" function to memorise or delete the radio
responding maintenance schedule.
transmitters used with OVO.
01. OVO requires scheduled maintenance work every 6 months or
After this time interval, the key is no longer used.
3,000 manoeuvres after previous maintenance.
P2 The P2 key stops the manoeuvre; if pressed for more than
02. Disconnect any source of electric power.
5 seconds, it enables programming mode as described
03. Check for any deterioration in automation system components, below.
paying special attention to erosion or oxidation of the structural parts.
Replace any parts which are below the required standard. P3 The P3 key enables you to control door opening and
closing or scroll through the programming steps.
04. Check the wear and tear on the moving parts: belt, carriage, pin-
ions and the door components; replace them if necessary.
05. Connect the electric power sources up again, and carry out all P1
the tests and checks described in section 4.1 (“Testing”).

6. Disposal of the P2
P3

product
This product constitutes an integral part of the automation system,
therefore it must be disposed of along with the latter.
Likewise for installation operations, when the product reaches its
end-of-life, decommissioning operations must be performed by
qualified personnel.
This product is made up of different types of material, some of which 7.2 - Programming
can be recycled while others must be disposed of. Seek information The OVO control unit is equipped with a number of programmable
on the recycling and disposal systems available in your area for this functions; function settings are entered using 2 keys on the control
product category. unit: P3 and P2. They are displayed by means of 3 LEDs: L1, L2
and L3.
CAUTION! - Some parts of the product may contain pol- There are two types of programming:
lutants or hazardous substances that could cause serious
damage to the environment or human health if released into Programming on power-up: this type of programming can only
the environment. be performed immediately after switching on OVO. Press and hold
P2 during power-up of the control unit to activate this programming
As indicated by the adjacent symbol, it is strictly forbid-
mode.
den to dispose of this product together with domestic
waste. Therefore, implement separate waste collec- Standard programming: this programming mode can be used at
tion criteria for disposal according to the regulations in any time and is activated by pressing and holding P2.
force in your area, or return the product to the dealer For both modes, the programming and programmable functions
when purchasing a new equivalent version. available are divided into 2 levels:
Level 1: functions settable in ON-OFF mode (enabled or disabled). In
CAUTION! - Local legislation may include the application this case, the L1, L2 and L3 LEDS indicate a function: if lit, the func-
of serious fines in the event of improper disposal of this prod- tion is enabled; if off, the function is disabled. See Tables 9 and 10.
uct.
Level 2: parameters settable on a scale of values (from 1 to 3). In
6.1 - Disposal of the buffer battery this case, each LED (L1, L2 and L3) indicates 1 of the 3 possible set
values. See Tables 11 and 12.
(if present)
CAUTION! The empty battery will contain toxic substances
and must not be thrown out with ordinary rubbish.
It should be disposed of according to the "separate" refuse collection
procedures in effect in your local area.

12
7.2.1 - Level 1 programming (ON-OFF functions)
Table 9 - List of programmable functions in "Programming on power-up" mode
N° Description Example
L1 Variable sensitivity This function enables the user to enable or disable the sensitivity with which obstacles are detected.

EN
The factory setting of sensitivity is variable (L1 LED off): greater sensitivity in the case of low motor
force, and less sensitivity where the motor force increases. All with the aim of ensuring optimal
detection precision. Variable sensitivity can be disabled, and 3 "fixed" levels of motor force remain
(L1 LED lit).
L2 Phototest/Electric lock This function enables the user to enable output 8 of the terminal board for operation with phototest
or with an electric lock. The factory setting of output 8 is with the "phototest" function enabled (L2
LED off). Alternatively, the output can be programmed on the OVO control unit to control an electric
lock (L2 LED lit).
L3 Partial opening This function enables either a long or short partial opening interval to be selected. The factory
setting for partial opening is long (approx. 1 m, L3 LED lit). Alternatively, partial opening can be set
to short (approx. 15 cm, L3 LED off).
At the end of the "Programming on power-up" procedure, the L1, L2 and L3 LEDs indicate the status of the functions in "Standard
programming" mode.

Table 10 - List of programmable functions in "Standard programming" mode

N° Description Example
L1 Closing speed This function enables the selection of the motor speed during the closing manoeuvre, from 2 levels:
"high" and "low”. The factory setting is "high" (L1 LED lit). Alternatively the function can be disabled
to set the "low" speed (L1 LED off).
L2 Opening speed This function enables the selection of the motor speed during the opening manoeuvre, from 2
levels: "high" and "low”. The factory setting is "high" (L2 LED lit). Alternatively the function can be
disabled to set the "low" speed (L2 LED off).
L3 Automatic closure This function enables automatic closure of the door after a programmed pause; the default
Pause Time is set at 30 seconds but may be changed to 15 or 60 seconds. The factory setting is
"semiautomatic" as Automatic closure is disabled (L3 LED off).
During normal operation of OVO, the L1, L2 and L3 LEDs are lit or off depending on the status of the associated function in "Standard
programming" mode. For example, L3 is lit if the "Automatic closure" function is enabled. L1 also displays the status of the "radio" function
in the first 10 seconds after power-up.

7.2.2 - Level 1 programming (ON-OFF functions)

By default level 1 functions are set as shown in tables 9 and 10, but can be modified at any time as shown in the procedures below. Take
care during modification procedures, as there is a maximum time interval of 10 seconds between pressing one key and another; otherwise
the system exits the procedure automatically memorising the changes made up to that time.
• To modify the ON-OFF functions in "programming on power-up" mode:
01. Switch off OVO (for example, by removing the F1 fuse).
02. Press and hold P2.
03. Switch on OVO (for example, by inserting the F1 fuse).
04. Wait for the flashing signal indicating control unit start-up and keep P2 pressed until L1 starts to flash (approx. 6s).
05. Release the P2 key when the L1 LED starts to flash.
06. Press P3 to move the flashing LED to the LED associated with the function to be modified.
07. Press P2 to change the status of the function (short flash = OFF; long flash = ON)
08. Wait 10s to exit the programming mode automatically after the maximum time interval.
NB: points 6 and 7 can be repeated during the same programming phase to set other functions to ON or OFF
• To modify the ON-OFF functions in “standard programming” mode:
01. Press and hold P2 for approx. 3s.
02. Release the P2 key when the L1 LED starts to flash.
03. Press P3 to move the flashing LED to the LED associated with the function to be modified.
04. Press P2 to change the status of the function (short flash = OFF; long flash = ON)
05. Wait 10s to exit the programming mode automatically after the maximum time interval.
NB: points 3 and 4 can be repeated during the same programming phase to set other functions to ON or OFF

13
 7.2.3 - Level 2 programming (adjustable parameters)
Table 11 - List of programmable functions in "Programming on power-up" mode
Input Parameter LED Value Description
LEDs (level)
EN

L1 Variable L1 High When variable sensitivity is enabled, it can be set to three different activation
Sensitivity L2 Medium thresholds. "High" variable sensitivity is most suited to small, correctly
balanced doors.
L3 Low
L2 Belt recovery L1 No recovery Adjust belt recovery limit Once the door has closed completely, a brief opening
L2 Minimum recovery manoeuvre is then performed which can be adjusted using this parameter.

L3 Maximum recovery
L3 Closure L1 Short Controls how long closure slowdown takes.
slowdown L2 Average
L3 Long

Table 12 - List of programmable functions in "Standard programming" mode

Input Parameter LED Value Description
LEDs (level)
L1 Motor force L1 Low Sets the maximum force generated by the motor to move the door.
L2 Medium
L3 High
L2 "Step-by- L1 Open - stop - close - Adjusts the sequence of commands associated with the "Step-by-step"
step" function open input or the 1st radio command (see tables 7 and 8).
L2 Open - stop - close - stop
L3 Apartment block
L3 Pause time L1 15 seconds Adjusts the pause time, i.e. time before automatic re-closure. Is effective
L2 30 seconds only if automatic closure is enabled.

L3 60 seconds
All parameters can be adjusted as required without any contraindications, only the "Motor force" setting may require special attention:
• Use of high force values are not recommended to compensate for the fact that the leaf has anomalous points of friction; excessive force
may impair the safety system and damage the leaf.
• If the "Motor force control" is used in support of the system for impact force reduction, the force measurement procedure must be
performed after each adjustment, as envisaged by standard EN 12445.
• Wear and atmospheric conditions influence movement of the gate; force settings should be checked periodically.

7.2.4 - Level 2 programming (adjustable parameters)

By default level 1 functions are set as shown in tables 11 and 12, but can be modified at any time as shown in the procedures below. Take
care during modification procedures, as there is a maximum time interval of 10 seconds between pressing one key and another; otherwise
the system exits the procedure automatically, memorising the changes made up to that time.
• To modify the adjustable parameters in “Programming on power-up” mode:
01. Switch off OVO (for example, by removing the F1 fuse).
02. Press and hold P2.
03. Switch on OVO (for example, by inserting the F1 fuse).
04. Wait for the flashing signal indicating control unit start-up and keep P2 pressed until L1 starts to flash (approx. 6s).
05. Release the P2 key when the L1 LED starts to flash.
06. Press the P3 key to move the flashing LED to the "input LED" associated with the parameter to be modified.
07. Press and hold P2during steps 8 and 9.
08. Wait approx. 3s after which the LED associated with the current level of the parameter to be modified will light up.
09. Press the P3 key to move the LED associated with the parameter value.
10. Release P2
11. Wait 10s to exit the programming mode automatically after the maximum time interval.
Points 6 to 10 can be repeated during the same programming phase to modify other parameters.
• To modify the adjustable parameters in “Standard programming” mode:
01. Press and hold P2 for approx. 3s.
02. Release the P2 key when the L1 LED starts to flash.

14
03. Press the P3 key to move the flashing LED to the "input LED" associated with the parameter to be modified.
04. Press and hold P2during steps 5 and 6.
05. Wait approx. 3s, after which the LED associated with the current level of the parameter to be modified will light up.
06. Press the P3 key to move the LED associated with the parameter value.
07. Release P2.

EN
08. Wait 10s to exit the programming mode automatically after the maximum time interval.
Points 3 to 7 can be repeated during the same programming phase to modify other parameters.

7.3 - Adding or removing devices 7.3.2 - Photocells

Devices can be added or removed at any time on an automation us- Please note - The images in this section refer to the Viky 30 photo-
ing OVO. In particular, various types of device can be connected to cell model.
the inputs STOP and PHOTO as indicated in sections 4.8.1 ("STOP The OVO control unit is equipped with a "Phototest" function which
Input") and 4.8.2 ("Photocells"). Fig. 39 shows the wiring diagram for increases the reliability of the safety devices, enabling it to be classi-
connecting the various devices. fied in category 2 in compliance with the standard EN 954-1 regard-
ing the combination of the control unit and safety photocells.
39 Each time a manoeuvre is started up, all safety devices are checked
and operation will only start if everything is in order. If, however, the
test fails (photocell "blinded" by the sun, cables shorted etc.), the
fault is identified and the manoeuvre disabled.
For the "phototest" function, a specific connection is required for the
photocell transmitters (see fig. 42 and 43). The control unit recog-
nises the connection in "phototest" mode during the self-learning
phase (see section 3.7.1 "Recognition of the door opening and clos-
ing positions”).
• Connection without "Phototest" function (fig. 40 and 41)
Power the transmitters and receivers directly from the control unit
services output (terminals 3 - 6).

40

7.3.1 - STOP input

STOP is the input that stops movement immediately, followed by a
brief reverse of the manoeuvre. Devices with contact types Normally
Open (NO), Normally Closed (NC) or devices with a constant resist-
ance of 8.2.2KΩ (such as safety edges) can be connected to this
input.
The control unit recognises the type of device connected to the
STOP input during the recognition phase (see section 3.7.1 "Recog-
nition of the door opening and closing positions”); after this, a STOP
command is activated whenever the device detects any difference
from the recognised setting. 41
When set accordingly, more than one device (these can be different)
can be connected to the STOP input:
• An unlimited number of NO devices can be connected in parallel.
• An unlimited number of NC devices can be connected in series.
• Several devices with a constant resistance of 8.2 KΩ can be "cas-
cade" connected with a single terminating resistance of 8.2 KΩ
• It is possible to combine two NO and NC contacts, placing them
in parallel, taking care to place a resistance of 8.2 KΩ in series with
the NC contact (this also enables the combination of 3 devices: NO,
NC and 8.2 KΩ).
If the STOP input is used for connecting devices with safety func-
tions, only the devices with a constant resistance of 8.2 KΩ guaran-
tee safety category 3 against faults in accordance with the standard • Connection with "Phototest" function (fig. 42 and 43)
EN 954-1.
The receiver power comes directly from the services output (termi-
nals 3 - 6), while that of the transmitters is from the "Phototest" out-
put (terminals 8 – 6). The maximum admissible current on the "Pho-
totest" output is 100 mA.

15
 42 7.4 - Special functions
7.4.1 - "Always open" function
The "Always open" function is a control unit feature which enables
the user to control an opening manoeuvre when the "Step-by-step"
EN

command lasts longer than 3 seconds. This is useful for connecting

a timer contact to the "Step-by-step" input in order to keep the door
open for a certain length of time, for example.
This feature is valid whatever the "Step-by-step" input programming
may be (see the "Step-by-step" properties in table 12).

7.5 - Connection of other devices

If the user needs to power external devices, it is possible to tap pow-
er as shown in fig. 45. The power supply voltage is 24Vac -30% ÷
+50% with a maximum available current of 100mA.
43
45

If two pairs of photocells are used which could interfere with each
other, activate the synchronisation mechanism as described in the
photocell instructions.
7.3.3 - Electric lock
The factory setting of the "phototest" output is with the "Phototest"
function enabled.
Alternatively, the output can be programmed on the OVO control unit
to control an electric lock. On start-up of each opening manoeuvre,
the output is activated for 2 seconds; in this way an electric lock de-
vice can be connected. The output is not activated during the closing
manoeuvre and therefore the electric lock must have a provision for
mechanical reactivation.
The output cannot control the electric lock directly (only loads of
24Vac – 2W). The output must be interfaced with a relay, as shown
in fig. 44.

44

16
8. Troubleshooting
Table 13 contains instructions to help you solve malfunctions or errors that may occur during the installation stage or in case of failure.

EN
Table 13 - Troubleshooting
Symptoms Probable cause and possible solution
The radio transmitter does not control the door Check to see if the transmitter batteries are exhausted; if necessary, replace them.
and the LED on the transmitter does not light
up.
The radio transmitter does not control the door Check to see if the transmitter has been memorised correctly in the radio receiver.
and the LED on the transmitter lights up. Check that the emission of the transmitter radio signal is correct by means of this empirical
test: push a key and rest the LED on the aerial of a normal radio (ideally an economical
one) that is switched on and tuned in, as close as possible, to 108.5Mhz FM; a slight
crackling sound should be heard.
No manoeuvre starts and the OK LED fails to Check that OVO is being powered at the mains voltage of 230 V. Check to see if fuses
flash. F1 and F2 (fig. 46) have blown; if necessary, identify the reason for the failure and then
replace the fuses with others that have the same current rating and specs.
No manoeuvre starts and the flashing light is off. Make sure that the command is actually received. If the command reaches the Step-by-
Step input, the OK led flashes twice indicating that the command has been received.
No manoeuvre starts and the flashing light Count the flashes and check the corresponding value in table 14.
flashes a few times.
The manoeuvre starts but it is immediately The selected force could be too low for this type of door. Check to see whether there are
followed by a reverse run. any obstacles; if necessary increase the force.

8.1 - Diagnostics and signals

A few devices give out special signals that allow you to recognise the operating status or possible malfunctions.
8.1.1 - Flashing light and courtesy light signals
During the manoeuvre, the flashing light, flashes once every second if connected. When something is wrong, the flashes are more frequent:
the light flashes twice with a 1 second pause between flashes. The courtesy light gives the same diagnostics signals.

Table 14 - FLASH flashing light signals

Quick flashes Cause Action
2 flashes Triggering of a photocell At the start of the manoeuvre, one or more photocells are preventing
1 second pause movement; check to see if there are any obstacles.
2 flashes This is normal when there is an obstacle impeding the closing movement.
3 flashes Activation of the "motor force" During the movement, the door experienced excessive friction; identify the
1 second pause limiting device cause.
3 flashes
4 flashes Activation of the STOP input At the start of or during the manoeuvre, the STOP input was activated;
1 second pause identify the cause.
4 flashes
5 flashes Error in the internal parameters Wait at least 30 seconds, then try giving a command; if the condition
1 second pause of the electronic control unit persists, it means there is a serious malfunction and the circuit board has to
be replaced.
5 flashes
6 flashes The maximum manoeuvre limit/ Wait for a few minutes until the manoeuvre limiting device drops to under the
1 second pause hour has been exceeded maximum limit.
6 flashes
7 flashes There is an error in the internal Disconnect all the power circuits for a few seconds and then try giving a
1 second pause electric circuits command again; if the condition persists, it means there is a serious fault
on the circuit board or the motor cabling. Check and replace as necessary.
7 flashes

17
 8.1.2 - Control unit signals
On the OVO control unit, you can find the L1, L2 and, L3 LEDs (fig. 46). Each of these can give special indications, both during normal
operation and in case of malfunctions.
Table 15 - LEDs on the control unit terminals
OK LED Cause Action
EN

Off Malfunction Make sure there is power supply; check to see if the fuses are blown; if
necessary, identify the reason for the failure and then replace the fuses
ones of the same type.
On Serious malfunction There is a serious malfunction; try switching off the control unit for a few
seconds; if the condition persists, it means there is a malfunction and
the circuit board has to be replaced.
One flash every second Everything OK Normal operation of control unit.
2 quick flashes The status of the inputs has This is normal when there is a change in one of the inputs: Step-by-
changed Step, STOP, triggering of photocells or use of the radio transmitter.
Series of flashes separated Miscellaneous It corresponds to the flashing light or the courtesy signal.
by a 1 second pause See table 14.
STOP LED Cause Action
Off Activation of the STOP input Check the devices connected to the STOP input.
On Everything OK STOP Input active.

Table 16 - LEDs on the control unit keys

L1 LED Description
Off Correct during normal functioning.
On Indicates that a radio code that is not in the memory has been received during normal functioning.
It flashes • Function programming in progress.
• Memorising or deleting the radio transmitters.
L2 LED Description
Off Indicates the slow "Motor speed" during normal functioning.
On Indicates the fast "Motor speed" during normal functioning.
It flashes • Function programming in progress.
• If it flashes together with L3, it means that the user must carry out the recognition of the door opening and
closing positions (refer to section 3.7.1 "Recognition of the door opening and closing positions”).
L3 LED Description
Off During normal operation the device indicates "Automatic Closing" is inactive.
On During normal operation the device indicates "Automatic Closing" is active.
It flashes • Function programming in progress.
• If it flashes together with L2, it means that the user must carry out the recognition of the door opening and
closing positions (refer to section 3.7.1 "Recognition of the door opening and closing positions”).

46 47

L1
F1 L2
L3
P
O
ST
K
O

F2

18
9. Technical specifications
Nice S.p.a., in order to improve its products, reserves the right to modify their technical specifications at any time without prior notice. In any
case, the manufacturer guarantees their functionality and suitability for the intended purposes.

EN
All the technical characteristics refer to a room temperature of 20°C (±5°C).
OVO technical specifications
Type Electromechanical gearmotor for the automatic movement of garage doors for residential use,
complete with electronic control unit
Pinion 9.5 mm diameter, 28 teeth
Peak starting torque [corresponds to 9.9 Nm [550N]
the force necessary to keep set the
leaf in motion]
Nominal torque [corresponds to 4.95 Nm [275N]
the force necessary to keep a leaf
moving]
Speed under no load [corresponds if 103 rpm [0.14m/s]
"Fast" speed is programmed] The control unit enables 2 speeds equal to approx. 100% - 60% to be programmed
Nominal torque speed [corresponds 52 rpm [0.07m/s]
if "Fast" speed is programmed]
Maximum frequency of operating 30 cycles per day (the control unit allows up to the maximum described in tables 2 and 3)
cycles
Maximum continuous operating time 3 minutes (the control unit limits the continuous operation up to the maximum described in
tables 2 and 3)
Operating limits In general, OVO is suitable for the automation of sectional or overhead doors which remain
within the dimensions stated in table 1 and limits specified in tables 2 and 3.
OVO power supply 230Vac (±10%) 50/60Hz.
Max. absorbed power 200 W
Insulation class 1 (a safety grounding system is required)
Emergency power supply No
OVO courtesy light 12 V-21 W
Flashing Light Output for 1 flashing light (12 V, 21 W)
STOP Input For normally closed or normally open contacts or for constant resistance of 8.2 KΩ with self-
recognition (any variation from the memorised status causes the "STOP" command).
Step-by-step Input For normally open contacts (the closing of the contact causes the "STEP-BY-STEP"
command)
Radio AERIAL Input 52Ω for RG58 or similar type of cable
Radio receiver Incorporated
Programmable functions 6 ON-OFF functions and 6 adjustable functions (see tables 9, 10, 11 and 12)
Recognition functions Recognition of the type of "STOP" device (NO or NC contact or 8.2 KΩ resistance).
Recognition the door opening and closing positions and calculation of the slowdown and
partial opening points.
Working temp. -20°C ÷ 50°C
Use in acid, saline or potentially No
explosive atmosphere
Protection class IP 40 use only in indoor or protected environments
Dimensions and weight 225 x 330 h 100 / 3.3 kg

Guide technical characteristics

GRO33 GRO13
Type 3-piece profile in galvanised steel single profile in galvanised steel
Guide length 3.15 m 3.15 m
Guide height 35 mm 35 mm
Useful stroke 2.6 m 2.6 m
Belt lenght 6m 6m
Belt height 6 mm 6 mm
Resistance to traction 730 N 730 N

19
 Incorporated radio receiver technical specifications
Type 4 channel receiver for incorporated radio command
Frequency 433.92 MHz
EN

Coding King
Transmitter compatibility (*) Clipper, Stylo 4, Stilo 4K, Myo C4, Novo TX and Novo Digy
No. of transmitters that can be Up to 160 if memorised in mode 1
memorised
Input impedance 52Ω
Sensitivity better than 0.5µV
Range of the transmitters From 100 to 150m. The range can vary if there are obstacles or electromagnetic disturbances,
and is also affected by the position of the receiving aerial
Outputs /
Working temp. -20°C ÷ 55°C

10. CE Declaration of conformity

Declaration of conformity as per Directive 2004/108/CE (EMC)

Declaration code: K101/OVO Address: Via Malignani, 42 - 33077 - Sacile (PN) Italy

Rev.: 0. Type: Electromechanical gearmotor with incorporated control unit

Model: OVO
Language EN:
Manufacturer’s name: KING GATES S.r.l.

DIRECTIVE 1999/5/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 9 March 1999 on radio equipment and telecommunications terminal equipment and the mutual
recognition of their conformity, in accordance with the following harmonised standards:
- Health protection: EN 50371:2002
- Electrical safety: EN 60950-1:2006+A11:2009
- Electromagnetic compatibility EN 301 489-1 V1.8.1:2008, EN 301 489-3 V1.4.1:2002
- Radio spectrum: EN 300 220-2 V2.3.1:2010

• DIRECTIVE 2004/108/EC OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL of 15 December 2004 on the approximation of the laws of the Member States relating to
electromagnetic compatibility and repealing Directive 89/336/EEC, in accordance with following harmonised standards.
EN 61000-6-2:2005, EN 61000-6-3:2007

In addition, the product conforms with the following Directive on partly completed machinery:

• Directive 2006/42/EC of the European Parliament and of the Council of 17 May 2006 on machinery, and amending Directive 95/16/EC (recast), in accordance with the following
harmonised standards:

- It is hereby declared that the relevant technical documentation has been compiled in accordance with Annex VII Part B of Directive 2006/42/CE and that the following essential
requirements have been applied and fulfilled: 1.1.1- 1.1.2- 1.1.3- 1.2.1-1.2.6- 1.5.1-1.5.2- 1.5.5- 1.5.6- 1.5.7- 1.5.8- 1.5.10- 1.5.11
- The manufacturer undertakes to transmit, in response to a reasoned request by the national authorities, relevant information on the partly completed machinery. This shall be
without prejudice to the intellectual property rights of the manufacturer of the partly completed machinery.
- Should the partly completed machinery be put into service in a European country with an official language different to the one used in this declaration, a translation into that
language must be provided by the person bringing the machinery into the language area in question.
- The partly completed machinery must not be put into service until the final machinery into which it is to be incorporated has been declared in conformity with the provisions of
Directive 2006/42/CE, where appropriate;

In addition, the product GD0N complies with the following standards: EN 60335-1:2002 + A1:2004 + A11:2004 + A12:2006 + A2:2006 + A13:2008+A14:2010; EN 60335-2-95:2004

The product complies with the following standards (limited to the applicable sections): EN 13241-1:2003, EN 12445:2002, EN 12453:2002, EN 12978:2003

Sacile, 19-06-2012
Alex Antoniolli
(Managing Director)

20
 IS0193A01MM_24-08-2012

Dati dell’installatore / Installer details

Azienda / Company Timbro / Stamp

Località / Address

Provincia / Province

Recapito telefonico / Tel.

Referente / Contact person

Dati del costruttore / Manufacturer's details

King Gates S.r.l.
Phone +39.0434.737082 Fax +39.0434.786031
info@king-gates.com www.king-gates.com