FADINI Talos Retractable Oil-hydraulic Bollard Instruction Manual
- June 3, 2024
- FADINI
Table of Contents
- FADINI Talos Retractable Oil-hydraulic Bollard
- INTRODUCTION
- DISPOSAL OF MATERIALS
- GENERAL DESCRIPTION OF THE PRODUCT
- DECLARATION OF CONFORMITY:
- MAIN COMPONENTS
- COMPONENTS FOR A COMPLETE INSTALLATION
- REMOVE THE BOLLARD FROM ITS CASING
- CEMENTING THE CASING
- INSTALLING THE BOLLARD
- ARRANGING FOR THE MAGNETIC LOOPS (OPTIONAL)
- FIXING THE COVER PLATES OF THE BOLLARD
- PRODUCT SPECIFICATIONS
- TECHNICAL DATA
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
FADINI Talos Retractable Oil-hydraulic Bollard
GENERAL WARNINGS FOR PEOPLE SAFETY
THANK YOU
Thank you for purchasing a Fadini product. Please read these instructions
carefully before using this appliance. The instructions contain important
information which will help you get the best out of the appliance and ensure
safe and proper installation, use and maintenance. Keep this manual in a
convenient place so that you can always refer to it for the safe and proper
use of the appliance.
INTRODUCTION
This operator is designed for a specific scope of applications as indicated in this manual, including safety, control and signaling accessories as minimum required with Fadini equipment. □ Any applications not explicitly included in this manual may cause operation problems or damages to properties and people. Mechanical Fadinisnc is not liable for damages caused by the incorrect use of the equipment, or for applications not included in this manual or for malfunctioning resulting from the use of materials or accessories not recommended by the manufacturer. □ The manufacturer reserves the right to make changes to its products without prior notice. □ All that is not explicitly indicated in this manual is to be considered not allowed.
BEFORE INSTALLATION
Before commencing operator installation assess the suitability of the access,
its general condition and the structure. □ To check that the ground is stable,
to avoid subsequent settling or deformation in the traffic control post
installation area. □ Make sure that there is no risk of impact, crushing,
shearing, conveying, cutting, entangling and lifting situations, which may
prejudice people safety. □ Do not install near any source of heat and avoid
contacts with flammable substances. Keep all the accessories able to turn on
the operator (transmitters, proximity readers, key-switches, etc) out of the
reach of the children. Transit through the access only with stationary
operator. Do not allow children and/or people to stand in the proximity of a
working operator. To ensure safety in the whole movement area of a bollard it
is advisable to install photocells, sensitive edges, magnetic loops and
detectors. Use yellow-black strips or proper signals to identify dangerous
spots. Before cleaning and maintenance operations, disconnect the appliance
from the mains by switching off the master switch. If removing the actuator, do
not cut the electric wires, but disconnect them from the terminal box by
loosening the screws inside the junction box.
INSTALLATION
All installation operations must be performed by a qualified technician, in
observance of the Machinery Directive 2006/42/CE and safety regulations EN
12453 – EN 12445. □ Verify the presence of a thermal-magnetic circuit breaker
0,03 A – 230 V – 50 Hz upstream the installation. □ Use appropriate objects to
test the correct functionality of the safety accessories, such as photocells,
sensitive edges, etc. □ Carry out a risk analysis by means of appropriate
instruments measuring the crushing and impact force of the main opening and
closing edge in compliance with EN 12445. □ Identify the appropriate solution
necessary to eliminate and reduce such risks.
- In case where the gate to automate is equipped with a pedestrian entrance, it is appropriate to prepare the system in such a way to prohibit the operation of the engine when the pedestrian entrance is used.
- Apply safety nameplates with CE marking on the gate warning about the presence of an automated installation.
- The installer must inform and instruct the end user about the proper use of the system by releasing him a technical dossier, including: layout and components of the installation, risk analysis, verification of safety accessories, verification of impact forces and reporting of residual risks.
INFORMATION FOR END-USERS
The end-user is required to read carefully and to receive information
concerning only the operation of the installation so that he becomes himself
responsible for the correct use of it.
- The end-user shall establish a written maintenance contract with the installer/maintenance technician (on -call). □ Any maintenance operation must be done by qualified technicians.
- Keep these instructions carefully.
WARNINGS FOR THE CORRECT OPERATION OF THE INSTALLATION
For optimum performance of system over time according to safety regulations,
it is necessary to perform proper maintenance and monitoring of the entire
installation: the automation, the electronic equipment and the cables
connected to these. The entire installation must be carried out by qualified
technical personnel, filling in the Maintenance Manual indicated in the Safety
Regulation Book (to be requested or downloaded from the site
www.fadini.net/supporto/downloads).
- Operator: maintenance inspection at least every 6 months, while for the electronic equipment and safety systems an inspection at least once every month is required. The manufacturer, Meccanica Fadini snc, is not responsible for non-observance of good installation practice and incorrect maintenance of the installation.
DISPOSAL OF MATERIALS
Dispose properly of the packaging materials such as cardboard, nylon, polystyrene etc. through specializing companies (after verification of the regulations in force at the place of installation in the field of waste disposal). Disposal of electrical and electronic materials: to remove and dispose through specializing companies, as per Directive 2012/19/UE. Disposal of substances hazardous for the environment is prohibited.
GENERAL DESCRIPTION OF THE PRODUCT
Tales is a bollard attend with a fully retractable post sinking at to the
ground level. It is an oil-hydraulic system, the movements of which are by an
incorporated motor-pump. It is designed to securely stop traffic from an area.
The TALOS series includes a vast selection of options as indicated below,
varying in height, thickness and depth of embedding (constraint) for impact
resistance (the abbreviation HRC identifies those bollards having higher
ratings of resistance to crash and impact than the standard versions).
The construction features and installation procedure are the same across the
entire range:
The retractable post, 275 mm diameter, is made of S235JRH steel (4 mm
thickness) and S355JRH steel (12 mm thickness), cataphoretic treated and
polyester powder coating.
A stainless steel version is available, INOX Aisi 304 satin finish, but only
in the 4 mm thickness option.
In the HRC options, the post (raised) stays embedded into the casing 40 cm
(constraint) deeper rather than 20 cm as with the standard versions, thus
ensuring higher resistance to impact and crash.
The electronic controller Elpro S40 is to be installed externally, in a
sheltered place.
A wide range of safety and control accessories make this bollard easy and safe
to operate and therefore suitable to any applications, either in public or
private areas.
Any TALOS can be completed with supplementary accessories, to be specified at
the time of the order as required (pre-assembled and pre-wired to the internal
terminal block):
- Solenoid valve: it allows the post to lower in case of power failure.
- Presence sensor (pressure switch): it prevents the post from rising in case an obstacle stays on it.
- Beeper: an acoustic device operating during the rising and lowering movements of the post.
- Heating resistor: a device used to keep Talos warm inside when the external environment is below 5 °C.
VERSION WITH LEDs FITTED ONTO THE COVER-RUBBER EDGE ASSEMBLY
As from week 28/2019 it will be available the TALOS in the version with Nos.
12 led lights fitted onto the cover-rubber edge assembly of the rising
cylinder head.
This version replaces the correspondent model with Nos. 9 led lights in the
top of the rising cylinder.
This technical improvement will not affect in any way the performance or the
functional features of the bollard.
For a correct installation always refer to all the indications and figures
shown in this installation manual.
DECLARATION OF CONFORMITY:
Meccanica Fadini snc (Via Mantova, 177/A – 37053 Cerea – VR – Italy) declares under its own responsibility that TALOS is in compliance with the Directive 2006/42/EC on machinery, moreover: is to be sold and installed as a comprehensive “Automatic System”, including the accessories and components as recommended by the Manufacturing Company. In observance of the current directives, any automation is to be regarded as a “machine”. Therefore it is required that all the applicable safety normsare strictly complied with by installation agents, who are also required to issue a Declaration of Conformity. The manufacturing company is not liable for incorrect applications or misuse of its products that are declared to be produced in compliance with the following norms: Analysis of the risk and actions to cure them EN 12445 & EN 12453, Low Voltage Directive 2014/35/UE, Electro-magnetic Compatibility Directive 2014/30/UE. In order to certify the product the Manufacturer declares under his own responsibility the compliance with the PRODUCT regulations under the NORMS EN 13241-1.
MAIN COMPONENTS
stroke (mm) | constraint H (mm)(mm) |
---|---|
500 | 200 |
200 | 1.010 [A] |
400 | 1.010 |
600 | 200 |
400 | 1.210 |
700 | 200 |
400 | 1.210 |
800 | 200 |
400 | 1.310 |
NON MANDATORY FUNCTIONING TEST (not required for installation purposes)
The Talos bollard is factory-tested in any normal working conditions before
being sent out to customers.
Anyway, to enable some functioning tests to be carried out before
installation, it is possible to access the inner terminal block for the
electrical connections by removing the hatch cover: undo the two lateral
screws of the cover and pull outwards the junction box including the
connector.
NOTE WELL : once test is finished, put the box and the hatch cover back.
COMPONENTS FOR A COMPLETE INSTALLATION
List of all the possible accessories for system operations and safety (see general catalogue). General indicative diagram:
- Led sheer
- Electronic controller with radio receiver
- 0,03 A magnetic thermal circuit breaker (not in the catalogue)
- Loop detector for metallic masses, two channels
- Voltage stabilizer for single coil application (Talos with solenoid valve) 6 – Burglar-proof enclosure
- Photocell receiver, recess mount
- Pre-assembled loop with power supply cable
- Post for photocell projector
- Oil-hydraulic bollard Talos series
- Remote control transmitter
- Post for photocell receiver
- Post to take command accessories
- Key-switch
- Warning signal bollard in motion
- Photocell projector, recess mount
- Double head traffic lights
Make sure that the electric cables of all the accessories are led to the
electronic controller Elpro S40 without interfering with any other utility.
Depth and diameter of the cable ducts are to comply with the principles of the
good installation technique and the safety rules in force on the place of the
application.
REMOVE THE BOLLARD FROM ITS CASING
NOTE WELL: make sure the ground cable is disconnected from the casing
before lifting
Carefully hoist and remove the inner assembly of the bollard by a winch. Make
sure the cables are not torn or cut or the inner hydraulic pipes are damaged
in this phase.
CEMENTING THE CASING
A pit is to be dug into the ground following the dimensions as indicated in Pic. 5.
Check soil natural permeability: 50 liters of water must be able to soak away
in not longer than 30/40 minutes. Otherwise provide a pipe to allow rain water
to ow either into the sewage system or a sump well equipped with a submersed
pump.
Lay a corrugated tube, Ø 50 mm, to lead the electric cables through it, from a
junction box or directly from the electronic controller Elpro S40 (Pic. 6).
NOTE WELL: the foundation casing is to be set perfectly levelled, and the upper edge must be 1-2 cm higher than the surrounding walking area.
The upper level of the foundation casing is to be 1-2 cm higher than the
surrounding walking surface, in order to limit the amount of water that may
get inside it.
Cast concrete all around the casing up to 5-10 cm from walking level. Wait all
the time required for concrete to set firmly (at least 7 days) and complete
the finishing of the road surface.
IT IS MOST IMPORTANT THAT THE CASING IS 1-2 cm HIGHER THAN AREA FINISHED
LEVEL. IN NO WAY THE TALOS IS TO BECOME A WATER GATHERING BASIN. AVOID AREAS
WHERE SOIL TENDS TO SAG TO PREVENT THE BOLLARD FROM BEING FLOODED.
IN CASE OF SNOW, THE FLAT SURFACE OF THE COVER PLATE CAN BE EASILY CLEARED
EVEN BY HEAVY MECHANICAL MEANS.
INSTALLING THE BOLLARD
Once concrete has firmly set around the casing, put the inner assembly back into it. Lastly remove the lifting rings.
NOTE WELL: IT IS IMPORTANT THAT THE ENTIRE ASSEMBLY IS PERFECTLY FITTED
BACK INTO ITS SEAT. THE PLATE, TO WHICH THE MOTOR-PUMP IS FIXED, MUST FIT WELL
ONTO THE INNER SURFACE OF THE CASING. REMOVE POSSIBLE FRAGMENTS.
They must
fit so that the dedicated groove in the casing is fitted perfectly
ARRANGING FOR THE MAGNETIC LOOPS (OPTIONAL)
IMPORTANT: Make sure that the area near and below the ground level where
the accessories are installed is clear from electromagnetic sources to prevent
interference problems with the detections of the loops and with any other
electronic device to control the installation. The magnetic loop is a safety
device, permanently active, to detect vehicles: the bollard is prevented from
rising while any vehicle is transiting on the loops.
A hole is to be dug to take the pre-assembled loops that can be provided by
the company (see the instructions coming with this item to be informed about
all of the possible configurations available).
INSTALLING THE PHOTOCELLS (OPTIONAL ITEM) AND OTHER COMMAND ACCESSORIES AS
REQUIRED
The photocells are to be installed at a suitable minimum distance to operate
properly as indicated in Pic. 11.
Visual 344, with 2 or 3 elements, is a post made of metal designed to provide
a support to the electronic controller Elpro S40 in those applications in the
open where no other structures are available to this purpose. it is designed
to also take any other control accessories, such a key-switch or a video-
intercom system, as required near the installation (Pic. 11).
ELECTRIC CONNECTIONS TO THE ELECTRONIC CONTROLLER ELPRO S40
The electronic controller Elpro S40 is to be installed in a dry and protected
place to prevent unauthorized actions.
Make sure that all the electric cables of the command and safety accessories
are properly led to the controller (Pic.3).
Through the previously laid corrugated tube pull a multicore cable, type BUT
FLESSIBILE FG 7OR 12×1,5 mm² (not supplied with the equipment, but available
on request as per catalogue) or a multicore cable, type BUT FLESSIBILE FG 7OR
16×1,5 mm² (not supplied with the equipment, but available on request as per
catalogue) for the electrical connections to the Elpro S40 controller,
depending on which model of TALOS is required to be installed (see page 18,
point 8).
NOTE WELL: Lay a ground cable suitable to the type of installation as
required either for public or private users and in compliance with the
existing safety norms. A screw is provided for proper connection.
For applications in public areas use a cable having a section of 16 mm².
The multipole cable BUT FLESSIBILE FG 7OR 12×1,5 mm² or BUT FLESSIBILE FG 7OR
16×1,5 mm² (see page 18, point 8) is required to have a maximum length of 50
m.
The ground cable must have a section complying with the installation
requirements.
ATTENTION: before carrying on with wiring, it is recommended to identify which optional accessories TALOS is actually fitted with (pressure switch, solenoid valve, beeper or heating resistor), so to arrange the proper connections to the respective terminals in the connector.
The bollard comes pre-wired (electric motor, limit switches, LEDs and possible
optional items such as: beeper, solenoid valve and pressure switch).
Connections are in a dedicated watertight box.
Remove the connector from the junction box and bring the connections to the
respective terminals by means of a multicore cable (not supplied with the
equipment).
ATTENTION: a 40 µF capacitor is pre-wired inside the junction box. For the Talos option 4 mm thickness (fe steel and Inox/stainless steel) do NOT connect any more capacitors to the terminals A and B of the Elpro S40 controller unless required to achieve a good performance of the bollard. For the Talos option 12 mm thickness a 20 µF capacitor is required to be added to the terminals A and B of Elpro S40. ATTENTION: TIGHTEN THE CABLE GLAND VERY HARD BEFORE FITTING BACK THE CONNECTOR, OTHERWISE GRADE OF PROTECTION FROM SEEPAGE MAY BE AFFECTED.
ATTENTION: supply the system with power only when wiring is completed.
Once the bollard and all of the the safety (make sure that all the NC contacts
in the Elpro S40 controller are actally closed) and command accessories are
finally installed, the respective connections to Elpro S40 done and the risk
analysis completed, the first running test can be carried out.
If a remote control is available, once satisfied it has been properly match
encoded with the radio receiver following the instructions provided with it,
pulse once for the post to rise.
Check the electrical connections to the limit switches; then, once the electric power is supplied, check the status of the LEDs first of all as follows: with the post in down posistion the L8 LED must be OFF, while L9 must be ON; if not, swap the connections to terminals 11 and 12 in Elpro S40.
ATTENTION: the post must be fully down. If the post goes up, even partially, during the installation phase, override the system by the manual release and allow for the post to go down completely to the end of the permitted stroke, then tighten by the release spanner (Pic. 23).
[B] Once satisfied that voltage is properely supplied to the system, and provided that the LEDs of the limit switches are correctly switched (post down L8 is OFF), by the first pulse the post should rise, if not swap the motor live connections (in Elpro S40) after voltage supply to the system has been switched off.
ATTENTION: a 40 µF capacitor is pre-wired inside the junction box. For the Talos option 4 mm thickness (steel and inox/stainless steel) do NOT connect any more capacitors to the terminals A and B of the Elpro S40 controller unless required to achieve a good performance of the bollard. For the Talos option 12 mm thickness a 20 µF capacitor is required to be added to the terminals A and B of Elpro S40.
FIXING THE COVER PLATES OF THE BOLLARD
The cover plate is to firmly rest all over the surface and closely adhere to
the circular fiange around the post
NOTE WELL: BOLLARD AND COVER PLATE ARE TO BE PERFECTLY CENTERED, SO THAT
THE GAP BETWEEN BOLLARD AND COVER PLATE HOLE IS EQUALLY SPACED ALL AROUND
NOTE WELL: IT IS RECOMMENDED THAT ALL OF THE FIXING SCREWS BE GREASED
BOLLARD WITH SOLENOID VALVE (OPTIONAL ACCESSORY)
With the version of the bollard where a solenoid valve (24 Vdc) is fitted, in
case of power failure, the post is allowed to lower by itself fiat to ground
level.
If a solenoid valve is fitted, a voltage stabilizer is also required: this
accessory is absolutely necessary and is to be fitted between the solenoid
valve power output (terminals 22 and 23) and the solenoid valve. Be reminded
that only one stabilizer can be fitted to each solenoid valve.
ATTENTION: WITH POST THICKNESS 4 mm, BOTH FE STEEL AND INOX/STAINLESS
STEEL, IT IS REQUIRED THAT THE POST BE ASSISTED TO REACH THE FULLY FLAT DOWN
POSITION.
BOLLARD FITTED WITH PRESSURE SWITCH ie. PRESENCE DETECTOR (OPTIONAL ITEM)
In the version where the bollard is fitted with a pressure switch, any
obstacle standing on the post prevents it from rising, or should the post be
in the rising phase it reverses movement and lowers completely fiat to ground
level. The pressure switch is factory preset for a minimum weight of about 15
kg. A new setting is possible to be made though, in compliance with the
installation requirements.
MANUAL RELEASE AND LOWERING OPERATIONS
The bollard has an override system allowing for the manual lowering of the
post. A spanner with a universal triangle socket at the end is supplied with
the equipment to release the unit and allow manual lowering.
ATTENTION: once the post has been manually lowered, rising can be made
possible only by powering the system and pulsing it to rise.
MAINTENANCE RECORD
hand over to the end user of the installation| ****
the gate opener
---|---
Installation address:| Maintainer:| Date:
Installation type:| Operator model:| Quantity of models
installed:
Sliding gate| Folding door| | |
Swinging gate| Road barrier| | Dimensions per gate leaf:
Over-head door| Bollard| X|
|
| Weight per gate leaf:| Installation date:
Lateral folding| ………………………..| | |
door| |
NOTE WELL: this document must record any ordinary and extraordinary
services including installation, maintenance, repairs and replacements to be
made only by using Fadini original spare parts.
This document, for the data included in it, must be made available to
authorized inspectors/officers, and a copy of it must be handed over the end
user/s.
The installer/maintainer are liable for the functionalities and safety
features of the installation only if maintenance is carried on by qualified
technical people appointed by themselves and agreed upon with the end user/s.
N°| Service date| Service description| Technical
maintainer| End user/s
1
| | | |
2
| | | |
3
| | | |
4
| | | |
5
| | | |
6
| | | |
Stamp and signature installation technician/maintainer| Signed for acceptance
end user buyer
OPERATIONS FOR ORDINARY ROUTINE MAINTENANCE OF FADINI AUTOMATIC BOLLARDS (EVERY SIX MONTHS) The standard maintenance routine sequence is as follows:
- Clean the ground cylinder and suck all material settlements.
- Clean water drains located at the bottom of the ground cylinder and/or excavation pit.
- Check any possible oil leaking from the hydraulic piston and, in case, x it.
- Overhaul the screws fastening the bollard to the ground cylinder, making sure they are properly tightened and lubricated.
- Check the oil-hydraulic motor-pump and oil pressure by assessing the rising times of the bollard. If required, top up oil in the reservoir and/or parallel add an extra capacitor to the existing one (instructions manual is to be referred to).
- Check the correct functioning of the signal LED lights (if incorporated) in the bollard head.
- Sight check the electronic board controlling the bollard/s (e.g.: “oded” relay contacts, oxidized terminal clamps, etc.).
- Check the correct functioning and positioning of the limit switches.
- Check the release system for bollard manual operations.
- Clean and recondition the rising cylinder if required, e.g.: paint patching up, replacing the back reflecting sticker and /or the cover tted with rubber edge.
IF OPTIONAL ACCESSORIES ARE INCLUDED, FURTHER MAINTENANCE IS REQUIRED AS FOLLOWS:
- Check the correct functioning of the safety accessories such as the inductive loop/s and the photocells.
- Check the correct functioning of the radio receiver and all of the remote controls.
- Check the correct functioning of the pressure switch.
- Check the correct functioning of the beeper.
- Check the correct functioning of the traffic lights and the respective control card.
- Check the correct functioning of the solenoid valve in emergency cases such as power failure or disconnection, assess therefore the status of the 24 Vdc voltage stabilizer.
- Check the correct functioning of EAR 35 acoustic analyzer to lower the bollard in emergency.
This symbol indicates that a particular attention is required on the installation phases and on running the operator. Failure to observe these indications may cause incorrect functioning of the bollard.
INFORMATION ABOUT SAFETY AND PROPER FUNCTIONING OF THE SYSTEM
-
Installation operations, testing, analysis of the risks and future maintenance are to be executed by qualied and authorized technicians in compliance with the existing regulations (www.fadini.net/supporto/download)
-
This automatic system is intended to be exclusively used for the applications described in this manual, including all of the safety and command accessories, at least as required.
-
Any application not indicated in this manual may cause malfunctioning or damages to people and properties.
-
Make sure the soil is adequate to take the bollard to avoid that settling at a later stage causes problems to the system
-
Make sure the site is free from utilities that may interfere with it.
-
Make sure that electromagnetic sources are at a suitable distance from the accessories, especially from the loop detectors. The magnetic elds of other sources might affect the detections of the safety loops as well as those of the other command and safety devices of the system.
-
Make sure the power supply to the electric motor is 230 V (50 Hz).
-
It is recommended either of the following power supply cables:
- cable type BUT FLESSIBILE FG 7OR 12×1,5 mm² (up to 50 m maximum): for the TALOS bollard in the standard version, without optional accessories;
- cable type BUT FLESSIBILE FG 7OR 12×1,5 mm² (up to 50 m maximum): for the TALOS bollard in the version fitted with one optional accessory maximum (either solenoid valve, obstacle detector or heater);
- cable type BUT FLESSIBILE FG 7OR 16×1,5 mm² (up to 50 m maximum): for the TALOS bollard in the version fitted with two or all of the three optional accessories (solenoid valve, obstacle detector and heater);
N.W. The presence or not of the beeper on the TALOS bollard, does not affect the cable choice.
The section of the ground cable is to be chosen in compliance with the requirements of the installation site.
-
In case any components or accessories need replacing, use only original parts as provided by the manufacturer.
-
The installer shall provide the final user with information related to all of the operating commands and functions of the system, including that concerning lowering of the post in case of an emergency (manual release operation).
-
The installer shall inform the final user of the dangers coming from the presence of persons, especially children, in the proximity of the bollard.
-
The manufacturer reserves the right to change this manual without previous notice.
As far as configuration and execution of the system are concerned, these are to comply with the laws in the country of installation.
Meccanica Fadini is not liable for any possible damages derived from incorrect
use or from any use not indicated in this manual, furthermore it is not
answerable for malfunctioning caused by the use of materials or accessories
not approved by the company itself.
It is to be noted that the product respects the impact and breakout resistance
values as indicated provided that the installation of the same is carried out
in observance of the specifications included in this manual of instructions.
Various factors are to be carefully taken into consideration such as
compaction index, soil permeability coefficient, concrete type, which may affect
the indicated values even significantly.
PRODUCT SPECIFICATIONS
Fully retractable automatic bollard for heavy duty applications, made up of an incorporated oil-hydraulic motor pump unit and an oil-hydraulic actuator inside the moving cylinder. Suitable for protecting garages, shops, gateways to shopping centers, banks, car saloons and generally speaking all those areas under risk of attack requiring safeguard. For residential, community and industrial installations. IP 67. The height of the rising cylinder (out of the ground) can be 500/600/700/800 mm. Rising cylinder made of S235JRH steel, thickness 4 mm and Ø 275 mm or S355J2H steel, thickness 12 mm, cataphoretic treated and powder coated. Rising cylinder also available in 4 mm AISI 304 or AISI 316 brushed stainless steel. Rubber ring on rising cylinder head. Cataphoretic treated aluminum cover, finished to provide a slip-proof treading surface. Rising cylinder fitted with high intensity, micro prismatic, retroreflecting approved sticker (h 80 mm), and 9 signaling LEDs all around the top with fiashing light. Hot dip galvanized steel casing for ground foundation, fitted with a cover plate allowing access to the hydraulic release for manual lowering of the bollard in an emergency by a special spanner having a triangular socket. With rising cylinder thickness 4 mm: impact resistance 52.000 J, breakout resistance 320.000 J. HRC (High Resistance Cylinder) option: impact resistance 70.000 J, breakout resistance 420.000 J. With rising cylinder thickness 12 mm: impact resistance 60.000 J, breakout resistance 450.000 J. HRC (High Resistance Cylinder) option: impact resistance 90.000 J, breakout resistance 550.000 J. Static load max 1.500 kg in standing position, max 20.000 kg in lowered position. Working temperature -40 °C +80 °C. Supply voltage 230 Vac ± 10%, 50 Hz. Absorbed power 1.100 W. Connector and junction box IP 66 for cabling. Rising time, rising cylinder thickness 4 mm: ~ 2,14 s [height H 500 mm]; ~ 2,57 s [height H 600 mm]; ~ 3,0 s [height H 700 mm]; ~ 3,42 s [height H 800 mm]. Rising time, rising cylinder thickness 12 mm: ~ 2,80 s [height H 500 mm]; ~ 3,40 s [height H 600 mm]; ~ 4,0 s [height H 700 mm]; ~ 4,50 s [height H 800 mm]. Frequency of use 2.000 cycles/day. Hydraulic device to lock the bollard in standing position, solenoid valve on request for the spontaneous descent of the bollard in case of power failure.
TECHNICAL DATA
BOLLARD
- Post diameter Ø 275 mm
- Post thickness 4 and 12 mm
- Post height range 500, 600, 700 and 800 mm
- Finishing of the Fe post polyester powder coating
- RAL 1028 (4 mm) – RAL 7016 (12 mm)
- Piston diameter 30 mm
- Shaft diameter 16 mm
- Piston stroke range 510, 610, 710 and 810 mm
- Factory set thrust power 61 daN (61 kg)
- Frequency of use intensive (2.000 cycles/day)
- LED / beeper power adaptor in: 230 V – 50 Hz out: 12 Vdc 600 mA
- LED lights 12 Vdc
- Post material S235JRH (4 mm) steel
- S355J2H (12 mm) steel
- AISI 304 inox / AISI 316 inox
- brushed SS steel
- standard HRC
- Impact resistance (thick. 4) 52.000 J 70.000 J
- Crash resistance (thick. 4) 320.000 J 420.000 J
- Impact resistance (thick. 12) 60.000 J 90.000 J
- Crash resistance (thick. 12) 450.000 J 550.000 J
- Maximum static load 20.000 kg 20.000 kg
ELECTRIC MOTOR
- Absorbed power 1.100 W
- Power supply 230 V
- Frequency 50 Hz
- Rated current 1,8 ÷ 3,5 A
- Maximum current 6 A
- Intermittent service S3
- Capacitor 40 μF
- Motor rotation speed 2.800 rpm
- HYDRAULIC MOTOR PUMP TUNIT 3.20LP
- Pump type P20
- Working pressure 1 MPa (10 bar)
- Working temperature – 20 °C + 80 °C
- Oil type Oil Fadini – code 708L
- Oil reservoire 3 liters
- Protection grade
- IP 67 without pressure switch and solenoid valve
- IP 65 with pressure switch and solenoid valve
brush| ed SS steel| | Oil reservoire 3
liters
---|---|---|---
| standard| HRC| Protection grade
Impact resistance (thick. 4)| 52.000 J| 70.000 J| IP 67 without pressure
switch and solenoid valve
Crash resistance (thick. 4)| 320.000 J| 420.000 J| IP 65 with pressure switch
and solenoid valve
Impact resistance (thick. 12)| 60.000 J| 90.000 J|
Crash resistance (thick. 12)| 450.000 J| 550.000 J|
Maximum static load
Individual weight of the bollards [D]
| 20.000 kg| 20.000 kg|
| (mm)| (kg)| | | | | | (mm)| (kg)|
---|---|---|---|---|---|---|---|---|---|---
TALOS 9450| 500| 4| 196| 2,14| 2,00| | TALOS 9651| 500| 12| 234| 2,80| 2,14
TALOS 9450/HRC| 500| 4| 202| 2,14| 2,00| | TALOS 9651/HRC| 500| 12| 252| 2,80|
2,14
TALOS 9460| 600| 4| 226| 2,57| 2,40| | TALOS 9661| 600| 12| 258| 3,40| 2,57
TALOS 9460/HRC| 600| 4| 234| 2,57| 2,40| | TALOS 9661/HRC| 600| 12| 266| 3,40|
2,57
TALOS 9470| 700| 4| 232| 3,00| 2,80| | TALOS 9671| 700| 12| 263| 4,00| 3,00
TALOS 9470/HRC| 700| 4| 240| 3,00| 2,80| | TALOS 9671/HRC| 700| 12| 275| 4,00|
3,00
TALOS 9480| 800| 4| 240| 3,42| 3,20| | TALOS 9681| 800| 12| 288| 4,50| 3,42
TALOS 9480/HRC| 800| 4| 246| 3,42| 3,20| | TALOS 9681/HRC| 800| 12| 291| 4,50|
3,42
- With Talos models fitted with a solenoid valve and moving cylinder thickness 4 mm, the weights are 15 kg higher than those indicated in the table.
- Weight of automatic bollard complete with casing