Roger Technology B70-2DCHP User manual
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
1
The following instruction is designed to enable the installer to quickly prove the ROGER brushless swing gate motors
and set the control panel work parameters prior to the final installation. The final commissioning should only be
done in con unction with the correct full relevant ROGER SERIES MOTOR instructions manuals and all the necessary
safeties.
STEP 1)
Check the gates to receive the automation are level, free to swing throughout the full arc open/closed and all hinges
well lubricated. Assemble the std or (heavy duty Fig1) brackets for above ground installations, securely and adhere
to the measurement tables for your motor type. In particullar measurements A&B from the separate motor
installation manual.
STEP 2)
Connect the motor cables XYZ and earth to the XYZ points inside the control panel for each motor respecting that
brushless motors need a minimum of 2.5mm cross section cable size. If the cables to be connected to the motor are
extended over 10 metres in total length, a 4.0mm cross section cable must be used. In the case on ust 1 motor,
connect to
Step 3)
Connect the power supply to the control panel. Press the test button once. The display should read a number on
the display. Example, (27). The system is looking for the safety device input terminal number 27 from the connection
block in Fig.5. Either connect the necessary safety device or link out the terminal number to the nearest COM
terminal on the same block if the safety input displayed is not necessary. Repeat the proceedure and connect the
displayed number to COM or connect the safety device if necessary, until the display reads 00 when the TEST button
is pressed. Fig.6 is an example of how the terminal block may look with some devices linked out.
Photocells
Fig.4
Fig
.1
Fig.2
Fig.5
Fig.3
Fig.6
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
2
ROGER BRUSHLESS B70/2DCHP Control panel when using FES180/PHOTO180 photocells
The photocells are in pairs, one transmitter and one receiver. They should be mounted 500-600 mm from the ground and face each other
level. Each photocell regardless of type has a 24 AC supply.
The receiving photocell does the switching on and off to the control panel. If the transmitting beam can reach the receiving photocell, there
will be a completed circuit to the main panel and the gate/s will function. If the beam is broken, during operation of closing, the gates will stop
and reopen.
If you are using two pairs of photocells as pictured, the receivers should be crossed on opposite sides so that you do not have two receivers at
the same side. The set on the gate posts (3) are on the outside of the gates.
For this purpose 5 core BT type cable is recommended for use. (CW1128 with conduit) Follow the wiring diagram provided to wire both the
receiver and transmitting photocells. At the control box end, wire the colour coded cables up as per the diagram provided showing a typical
photocell placement.
When the photocells are working and correctly aligned, you should hear a clicking sound from the transmitter when the beam is broken
intermittently. Once wired, place the covers over the photocells and secure the fixing screw. Fill any cable gaps with silicone to prevent
insects from entering the device and interfering with it.
FES180/FOTO180
BIG1/F, photocells.
Jumpers should not
be used.
ROGER B70/2DCHP
Control panel.
Where re uired,
enable
these functions.
See the main manual B70
-
DC
HP
for
other photocell types.
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
3
STEP 4)
Using the control panel buttons UP/DOWN, Fig.7 Scroll down to menu 70 Fig.8 and select 1 motor or 2 motors.
Change the parameter using the + - buttons. After a few seconds the board will realise the change automatically.
From the chart in Fig.9, scroll down to A1 , select the correct parameter for the motor you have connected using the
+ - buttons, make sure the panel realises the change. It should do this again automatically after a few seconds of the
change.
(See Fig7b for B70-2DC with dual menu)
Step 5)
Using a hex key tool, and the unlock lever, set the maximum open and closed stop positions of the motor, to give the
correct corresponding gate open and closed positions for each gate as shown in Fig.10. Double check the positions
of the collars by swinging the gate open/closed with the motor unlocked.
Step
Step 6)
You should now be ready to carry out the stroke programming sequence. But first you should check that the motors
are traveling in the correct direction in relation to the control panel. To do this it will be necessary to give the panel a
brief open or close command and compare the command to the movement of the gate direction, but then quickly
turn off the power once you realise the movement. Attach a temporary cable to COM as FIG.11 then, briefly touch
the other end into the AP terminal. The AP terminal is the open command, so the gates should open. Turn off the
power to the panel as soon as you see the movement. If the gates close with the AP input, the gates are going the
wrong way. It will be necessary to swap around any two wires to the incorrect motor (ZYX) as detailed in Fig.2.
Fig.7
Fig.8
Fig.
9
Fig. 10)
Fig. 11)
Fig.7b
With (B70-
2DCHP), with dual
menu version it
may be ne essary
to toggle into the
extended mode
first.
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
4
Step 7) THE STROKE PROGRAMMING SEQUENCE (also detailed in the main B70/2DCHP manual)
WARNING! Before proceeding, make sure that:
The doors are in a fully closed position: bring the doors into position by giving a close command, (CH) or with above
ground motors by using the manual un-lock) so that they come right against the mechanical stop. Pay attention to
the position of the lever arm of the BR21 underground motors: it must be properly hooked onto the door. To
facilitate the operation, it is recommended to power off and then restart, so that you can give the close command
regardless of the position of the door: the motor stops automatically when it reaches the mechanical closure stop.
For the program starting from the fully closed position is important because the control unit performs a mapping of
the absorption of current along the entire movement, while opening and then closing. For this reason, if a different
path is detected between opening and closing the program fails and returns an error message of AP PL
If the limit switches are present and connected, the motion stops when they are activated, otherwise the motors will
stop on the motor ad ustable stops or the gate wing stops set.
If you change the value of par. 31 and/or 32 in extended mode it is necessary to repeat the programming.
To enter programming press the PROG button for 4 s.: the display will show AP P- ; at this point, you can
programme the stroke by pressing the PROG button again, or by pressing the radio control button enabled by the
step-by-step function.
The display shows the indication AUTO and motor 1 starts opening, after the phase shift time.
Programming is performed automatically. Wait for the completion of the cycles avoiding crossing the ray of the
photocells or activating other safety devices (safety edges, stop).
The display shows the indication AU TO and motor 1 starts opening, after the phase shift time established in par. 25,
motor 2 is also automatically activated; when the wings both reach the fully open position, stopping on the
mechanical gate stop (or on the limit switch in the case of a motor with an articulated arm) the writing AU TO flashes
on the display for 2 seconds indicating that it is going to close, then the indication AU TO stops flashing and the
closing operation starts. If the program is successfully finished, the display goes back to showing the control and
safety status.
Otherwise, APPE appears (acquisition error) or APPL (path length error) and the program will have to be repeated.
Restoring standard factory parameters.
Turn off the control unit, simultaneously press and hold the UP and DOWN buttons then turn on again while keeping
the buttons pressed. After 4 seconds the display will show the writing rE S- flashing, which indicates that the values
have been restored to factory. N.B.: parameter A1 in extended mode is not restored and should be checked again as
well as the number of motors connected at 70
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
5
Step 8)
Insert the radio card into the slot on the main PCB.
Push the P1 button once on the radio card, followed by the button on your remote fob that you want to open the
gate fully with. Push the P2 button once on the radio card, followed by the button on your remote fob that you
want to open the gate partially. (PEDESTRIAN)
(Deleting all codes.)
ress the receiver buttons 1 and 2 simultaneously for 4 seconds: 5 fast blinks of the two LEDs indicates total erasure of stored codes.
NOTE: it’s recommended to delete all codes at the first installation before starting storing codes.
Step 9)
Test the system
You can now test run the system with the fob.
If necessary reduce the impact force level with the menus 30 to 33 in the parameters. These settings are explained in
the manufacturers B70/2DCHP manual.
Step 10)
Add in the necessary safety photocells, safety edges and other devices applicable to your installation as explained in
the manufacturers B70/1DCHP manual
Step 11) Enabling Automatic Closing.
Change the parameter A to any number other than 00. Eg. 05 would make the gate auto-close and re-attempt a
further 5 times before remaining open.
The pause time for auto-closing is pre-set to 30 seconds. Use the parameter 1 to change the time.
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
6
Connecting gate release devices
Volt free release connections only. (The
communication part of the intercom must use its own
power supply)
Check that
powered your
devices will accept
24VDC.
Connection of the inductive loop detector PD132
230VAC
for use as an
exit device.
(All dips off)
Road oop
Roger Technology Swing Gate Brushless B70-2DCHP Control Panel
Quick Start Gui e Exten e Mo e
7
Connecting magnetic locks
Connecting a 12V time clock
GL Series Mag
locks wiring detail.
N.C (White)
COM (Green) Not
normally
used.
-1 - UNAC Guide No. 2- July 2005
Installer:
(Name, address, telephone)
UNAC GUIDE No. 2
FOR THE MOTORISATION OF HINGED GATES
IN ACCORDANCE WITH MACHINERY DIRECTIVE 98/37/EEC AND THE APPLICABLE PARTS OF
STANDARDS EN 13241-1, EN 12453, EN 12445
With this publication UNAC sets out to inform and assist installers in applying the specifications of the directives
and of European standards concerning the safe use of motorised gates/doors.
It should be noted that those who sell and motorise an existing manual door/gate become the manufacturer of the
motorised door/gate machine and must prepare and keep the technical file, as laid down by Annex V of the
Machinery Directive (98/37/EEC). The technical file must contain the following documents:
Assembly drawing of the motorised door/gate (usually included in the installation manual).
Electrical connections and control circuit diagrams (usually included in the installation manual).
Risk analysis including (as indicated on the following pages):
the list of the essential requirements as indicated in Annex I of the Machinery Directive;
the list of the risks presented by the door/gate and the description of the solutions adopted.
They must also keep the manuals for installation and maintenance of the door/gate and of the components.
Prepare the operating instructions and general warnings for safety (if necessary integrating those in the manual
for installation of the door/gate) and give the user a copy.
Compile the proof book and give the user a copy (see facsimile in Annex 1).
Draft the EC declaration of conformity (see facsimile in Annex 2) and give the user a copy.
Fill in the label or plate with CE marking and attach it to the motorised door/gate.
N.B. The technical file must be held and made available to the competent national authorities for at least ten years
from the date of construction of the motorised door/gate.
Note also that, as from May 2005, the manufacturer of a new door/gate (both manual and motorised) must observe the
procedure for the CE marking pursuant to the Construction Products Directive (89/106/EEC), as indicated in annex ZA of the
standard EN 13241-1. This procedure involves the manufacturer:
setting up and maintaining internal production control;
having a notified body carry out the initial type tests referring to the applicable characteristics indicated in Annex ZA of
standard EN 13241-1.
N.B. UNAC is preparing guidelines dedicated to the correct application of the Construction Products Directive (89/106/EEC).
Risk areas
of the hinged gate (Figure 1)
The information given was drafted and checked with the utmost care, nevertheless UNAC declines all responsibility for any errors, omissions or
inaccuracies due to technical or graphical requirements. UNAC points out that this guide does not replace the content of standards which the
manufacturer of the motorised door/gate must observe.
-2 - UNAC Guide No. 2- July 2005
KEY TO THE MECHANICAL RISKS CAUSED BY MOVEMENT
Pursuant to the Machinery Directive:
“Danger zones” refer to any zone within and/or
around machinery in which an exposed person is
subject to a risk to his or her health and safety.
“Exposed person” refers to any person wholly or
partially in a danger zone.
MINIMUM LEVEL OF PROTECTION OF THE MAIN EDGE
Type of useType of actuation
controls Informed users
(private area)
Informed users
(public area)
Uninformed users
Hold-to-run control Pushbutton control Pushbutton control with key Hold-to-run control not
possible
Impulse control with door
visible
Limitation of forces, or
presence sensing devices
Limitation of forces, or
presence sensing devices
Limitation of forces and
photocells, or presence
sensing devices
Impulse control with door
not visible
Limitation of forces, or
presence sensing devices
Limitation of forces and
photocells, or presence
sensing devices
Limitation of forces and
photocells, or presence
sensing devices
Automatic control (e.g.
timed closure control)
Limitation of forces and
photocells, or presence
sensing devices
Limitation of forces and
photocells, or presence
sensing devices
Limitation or forces and
photocells, or presence
sensing devices
ANALYSIS OF THE RISKS AND CHOICE OF SOLUTIONS
IN ACCORDANCE WITH THE MACHINERY DIRECTIVE 98/37/EEC AND THE STANDARDS EN 13241-1, EN
12453, EN 12445
The risks listed below follow the sequence of the installation process. These risks are those which are commonly
present in motorised doors/gates systems. According to the various situations, consideration therefore has to be
made of any possible additional risks and exclude those which are not applicable. The solutions to be adopted are
those indicated by the standards mentioned above; in the case of risks not dealt with, the safety integration
principles indicated by the Machinery Directive (Annex 1 – 1.1.2) have to be applied.
MD
Ann. 1
Type of risks
Evaluation criteria and solutions to be adopted
(Tick the box corresponding to the solution adopted)
1.3.1
1.3.2
1.5.15
Mechanical, structural and
wear risks.
[1] Loss of stability and
break-up.
[2] Tripping.
FCheck the solidity of the structure installed (jambs, hinges and leaves) in
relation to the forces generated by the motor.
Attach the motor stably using adequate materials.
If available, check the content of the EC declaration of conformity of the
manual gate.
FIf necessary, carry out the structural calculation and attach it to the
Technical File.
FCheck that the travel of the leaves is limited (during opening and closure)
by mechanical stops of adequate strength.
Check that the leaves cannot, under any circumstance, exit their slide guides
and fall.
FCheck that any thresholds higher than 5 mm are visible, indicated or
shaped.
Im
p
act Crushin
g
Shearing Dragging
Cutting
Hookin
g
-3 - UNAC Guide No. 2- July 2005
MD
Ann. 1
Type of risks
Evaluation criteria and solutions to be adopted
(Tick the box corresponding to the solution adopted)
1.3.7
1.3.8
1.4
Mechanical risks caused by the movement of the gate (see references in Figure 1).
FCAUTION – If the door/gate is used solely with hold-to-run controls (and meets the requirements of the
standard EN 12453), the danger points listed below do not have to be protected.
FCAUTION – If protective devices are installed (in accordance with the standard EN 12978) which prevent in
all cases contact between the moving leaf and persons (for example photoelectric barriers, presence sensing
devices), it is not necessary to measure the operating forces.
[3] Impact and crushing on the main closing
edge (Figure 1, risk A).
FMeasure the closure forces (by means of the
special instrument required by the standard EN
12445) as illustrated.
In the case of gates with two leaves, the closure
force should be measured one leaf at a time.
Check that the values measured by the instrument
are below those indicated in the graph.
Carry out the measurements in the following points:
L = 50, 300 and 500 mm;
H = 50 mm,
at mid-height of the leaf and
at the height of the leaf minus 300 mm (max
2500).
N.B. The measurement should be repeated three
times in each point and the average value
considered.
The graph indicates the maximum values of the
dynamic, static and residual operating forces in
relation to the various positions of the leaf.
N. B. With reference to the measurement points with
L = 50, 300 and 500 mm, the maximum dynamic
force value permitted is 400 N.
FIf the values of the forces are higher, install a
protective device in accordance with the standard
EN 12978 (for example a sensitive edge) and repeat
the measurement.
N. B. The dynamic force can be reduced, for
example, by reducing the speed of the leaf or using
a sensitive edge with high elastic deformation.
Leaves with overlapping and delayed closure
Leaves with simultaneous closure
Force
Dynamic force
IMPACT
Static force
CRUSHING
time
Protective Device Protective Device
-4 - UNAC Guide No. 2- July 2005
MD
Ann. 1
Type of risks considered Evaluation criteria and solutions to be adopted
(Tick the box corresponding to the solution adopted)
[4] Impact and crushing in the area of opening (Figure 1, risk B).
FObserve the safety distances illustrated (in the most prominent part of the leaf).
or:
FMeasure the forces of opening (by means of the
special instrument required by the standard EN
12445) as illustrated.
Check that the values measured by the instrument are
less than those indicated in the graph above.
Carry out the measurement at a height of 1000 mm
(or in the most prominent point of the leaf
N.B. The measurement should be repeated three
times and the average value considered.
FIf the values of the forces are higher, install a
protective device in accordance with the standard EN
12978 (for example a sensitive edge) and repeat the
measurement.
[5] Impact in the area of closure (Figure 1, risk C).
FInstall a pair of photocells (recommended height
500 mm) so as to sense the presence of the test
parallelepiped (height 700 mm) positioned as
illustrated.
N.B. The test specimen for presence sensing is a
parallelepiped (700 x 300 x 200 mm) with 3 faces with
a light and reflective surface and 3 faces with a dark
and opaque surface.
[6] Impact in the area of opening (Figure 1, risk B)
and in the area of closure (Figure 1, risk C)
FTo reduce further the possibility of impact in the
areas of movement of the gate, it is possible to install
a pair of photocells (recommended height 500 mm) so
as to sense the presence of the test parallelepiped
(height 700 mm) positioned as illustrated.
Moto
r
Photocell
Specimen for
presence sensing
Photocell Photocell
Photocell
Photocell Photocell
Specimen for
sensing presence
-5 - UNAC Guide No. 2- July 2005
MD
Ann. 1
Type of risks
Evaluation criteria and solutions to be adopted
(Tick the box corresponding to the solution adopted)
1.3.7
1.3.8
1.4
Mechanical risks due to
movement of the leaf.
[7] Dragging of the
hands on the hinges side
edge (Figure 1, risk D).
[8] Dragging of the feet
on the lower edge
(Figure 1, risk E).
[9] Dragging of the
hands on the drive unit
(Figure 1, risk F).
[10] Dragging, hooking
and cutting due to the
shaping of the mobile
leaf (Figure 1, risk G).
FCheck that there is a clearance > 25 mm,
or:
Fattach guards that prevent fingers from being inserted (for example a
rubber strip).
FThe clearance between the gate and ground must prevent the risk of
dragging of the feet.
N.B. Should, due to the slope of the ground, the clearance vary, guards
should be attached (e.g. rubber strips).
FIf the distances between the drive unit and the leaf vary, check on the
presence of a clearance > 25 mm, or attach guards (e.g. covers or strips in
rubber).
FEliminate or protect any sharp edges, handles, projecting parts etc. (for
example by means of covers or strips in rubber).
1.5.1
1.5.2
1.5.10
1.5.11
Electrical and electromagnetic
compatibility risks
[11] Direct and indirect
contacts.
Dispersion of electrical
energy.
[12] Risks relating to
electromagnetic
compatibility.
FUse CE-marked components and materials pursuant to the Low Voltage
Directive (73/23/EEC).
FCarry out the electrical connections, connection to the mains, earth
connections and relevant checks, in accordance with current regulations and
as indicated in the installation manual of the drive unit.
N.B. If the electrical supply line is already set up (via both a socket and a
connector block), declarations of conformity to Italian law no. 46/90 are not
necessary.
FUse CE-marked components pursuant to the EMC Directive (89/336/EEC).
Carry out the installation as indicated in the manual for installation of the drive
unit.
1.2
1.5.3
1.2.3
1.2.4
Safety and reliability of
drive unit and control and
safety devices.
[13] Safety conditions in
the event of
malfunctioning and
power failure.
[14] Energy types other
than electrical energy
[15] Actuation and
disabling of the drive
unit.
[16] Power supply
switch.
FUse drive units which comply with the standard EN 12453 and safety
devices which comply with the standard EN 12978.
FIf hydraulic drive units are used, they must comply with the standard EN
982; or
Fif pneumatic drive units are used, they must comply with the standard EN
983.
FCheck that, after a fault or power failure, the drive unit restarts safely
without creating hazardous situations.
FInstall an omnipolar switch for electrical insulation of the door/gate, in
accordance with current laws. This switch must be positioned and protected
against accidental or unauthorised actuation.
-6 - UNAC Guide No. 2- July 2005
MD
Ann. 1
Type of risks
Evaluation criteria and solutions to be adopted
(Tick the box corresponding to the solution adopted)
1.2.5
1.5.14
1.2.4
[17] Consistency of
controls
[18] Risk of trapping.
[19] Emergency stop.
FInstall the controls (e.g. key selector) so that the user is not in a danger
zone, and check that the meaning of the controls has been understood by the
user (for example the function selector).
FUse CE-marked radio controls pursuant to the R&TTE directive
(1999/5/EEC) and complying with the frequencies admitted by the laws of
each individual country.
FInstall a device for release of the drive unit that allows manual opening and
closure of the leaf with force no higher than 225 N (for doors/gates in
residential areas) or 390 N (for doors/gates in industrial or commercial areas).
Supply the user with the means and instructions for the release operations.
Check that operation of the release device is simple and does not create
additional risks.
FIf appropriate, install an emergency stop control in accordance with the
standard EN 418.
N.B. Make sure that the emergency stop does not introduce additional risks,
aborting operation of the safety devices installed.
1.7.1
1.7.2
1.7.3
1.7.4
1.6.1
1.1.2
Integration principles for
safety and information.
[20] Signalling
equipment.
[21] Warnings.
[22] Marking.
[23] Operating
instructions.
[23] Maintenance.
[24] Unprotected residual
risks.
FA flashing light should be installed, in a visible position, to indicate
movement of the leaf.
FTraffic lights can be installed to control vehicle traffic.
FReflectors can also be attached to the leaf.
FAttach all those signs or warnings considered necessary for indicating any
unprotected residual risks and to indicate any foreseeable improper use.
FAttach the label or plate with the CE marking and containing at least what
is shown in the illustration.
FConsign to the user the operating instructions, safety warnings and EC
declaration of conformity (cf. facsimile in Annex 2).
FA maintenance plan has to be drawn up and implemented.
Check on the proper working of the safety devices at least every 6 months.
FRecord the work carried out in the proof book in accordance with the
standard EN 12635 (cf. facsimile in Annex 1).
FInform the user in writing (for example in the operating instructions) of any
unprotected residual risks and foreseeable improper use.
Manufacturer (name – address): _____________
Type of gate: _____________________________
Identification number: _____________________
Year of manufacture: ______________________
Automatic Gate
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