vetus BOW6012D Bow Thruster Instruction Manual
- May 15, 2024
- vetus
Table of Contents
BOW6012D – BOW6024D
60 kgf – ø 185 mm
Installation and user manual
Copyright © 2023 VETUS B.V. Schiedam Holland
Make sure that the user of the vessel is supplied with the owner’s manual.
Owner’s Name and Address
Thruster model, Serial Number
Installation and user manual bow thrusters BOW6012D and BOW6024D
Safety
Warning indications
Where applicable, the following warning indications are used in this manual in
connection with safety:
DanGer
Indicates that great potential danger exists that can lead to serious injury
or death.
WarninG
Indicates that a potential danger that can lead to injury exists.
Caution
Indicates that the usage procedures, actions etc. concerned can result in
serious damage to or destruction of the engine. Some CAUTION indications also
advise that a potential danger exists that can lead to serious injury or
death.
Note
Emphasises important procedures, circumstances etc.
Symbols
Indicates that the relevant procedure must be carried out.
Indicates that a particular action is forbidden.
WarninG!
When using the bow thruster watch out for swimmers or light boats which could
be in the near vicinity of the bow thruster tunnel openings.
Pass on the safety instructions to others using the bow thruster.
WarninG
This product should only be installed and maintained by qualified personnel
who have read and understood the instructions and precautions in this manual.
Failure to follow the instructions in this manual may result in serious injury
or property damage. The manufacturer shall notbe liable for any damages
resulting fromimproper installation or maintenance by unqualified personnel.
General rules and laws with regard to safety and accident-prevention also need
to be applied.
- Never touch the moving ends of the bow thruster whilst in operation.
- Never touch hot parts of the bow thruster and never place flammable materials in the vicinity of the bow thruster.
- Always stop the bow thruster before checking components or adjusting the bow thruster.
- Always disconnect the battery terminals during maintenance work.
- Ensure maintenance work is safe by only using tools suitable for the purpose.
- Always deactivate the main switch when the bow thruster is not in use for long periods.
Introduction
These installation instructions give guidelines for fitting the VETUS bow
thrusters ‘BOW6012D’ and ‘BOW6024D’.
The quality of installation will determine how reliably the bow thruster
performs.
Almost all faults can be traced back to errors or imprecision during
installation. It is therefore imperative that the steps given in the
installation instructions are followed in full during the installation process
and checked afterwards.
Alterations made to the bow thruster by the user will void any liability on
the part of the manufacturer for any damages that may result.
The thrust given by the bow thruster will vary from vessel to vessel depending
on the effect of the wind, the water displacement and the shape of the
underwater hull.
The nominal thrust quoted can only be achieved under the most favourable
conditions:
- Make sure that the batteries are supplying the correct voltage during use
- The installation is carried out in compliance with the recommendations given in this installation manual, in particular with regard to:
– Sufficiently large diameter of the battery cables so that voltage drop is reduced to a minimum.
– The manner in which the tunnel has been connected to the hull.
– Use of bars in the tunnel openings.
These bars should only be used where this is strictly necessary (if sailing regularly in severely polluted water.)
– The bars must have been fitted correctly.
Following the above recommendations will result in longer life and better performance of your bow thruster.
- For maintenance, please consult the ‘Maintenance and Warranty Book’ supplied.
- Never allow the bow thruster to operate for a long period; the maximum length of usage is restricted because of heat release in the electric motor. After use the motor must be allowed to cool off.
Note
The maximum continuous length of usage and the thrust as specified in the
technical details are based on the recommended battery capacities and battery
cables.
If significantly larger batteries in combination with very short battery
cables of significantly larger diameter than recommended are used then the
thrust will increase.
In such cases the maximum length of usage must be reduced in order to prevent
damage to the motor.
Installation recommendations
3.1 Positioning of the thruster tunnel
Several installation examples.
To achieve the optimum performance, position the
thruster tunnel as far forward as possible.
If, in addition to controlling the movement of the
bow, the stern of the vessel is required to move sideways, then a second
thruster may be installed at the stern.
For a planing boat the tunnel should, if possible,
be so situated so that when the vessel is planing it is above the water level
thus causing no resistance.
Installation of two bow thrusters in tandem (for larger boats).
In this case, depending on weather conditions, one or both bow thrusters may
be used.
Tip:
We do not advise fitting 2 bow thrusters into one tunnel; this does not result
in doubling the thrust!
When choosing the location for the thrust tunnel, take the following into
account for optimum performance:
– The distance A shown in the drawing must be at least 0.5 x D (where D is the
tunnel diameter).
– The length of the tunnel (distance B) should be between 2 x D and 4 x
D.
3.2
Positioning of the bow thruster in the thrust-tunnel
When determining the exact position of the bow thruster in the thrust
tunnel, the tailpiece MUST NOT protrude from the tunnel end.
The propeller should preferably be
situated on the centreline of the vessel, but it must always be accessible
from the outside.
– The electric motor can be installed in various
positions.
– If the motor is set up horizontally or at an angle, support is absolutely
essential.
– The electric motor must be positioned in such a way that it is always well
clear from the maximum bilge water level.
3.3 Connection of thrust tunnel to ship’s hull
Direct connection of the tunnel to the hull, without a fairing, produces
reasonable results.
A The connection to the hull can be abrupt.
B It is better to make the connection rounded with radius ‘R’ of about 0.1 x
D.
C It is even better to use sloping sides ‘C’ with dimensions 0.1 to 0.15 x D.
Connection of the thrust tunnel to the ship’s hull with a fairing results in
lower hull-resistance during normal sailing.
A The connection with a fairing can be abrupt.
B It is better to make the connection with a fairing rounded with radius ‘R’
of about 0.1 x D.
C The best connection is with a fairing using sloping side ‘C’ with dimensions
0.1 to 0.15 x D.
Tip:
The manner, in which the thrust tunnel is connected to the hull, has a great
influence on the actual performance of the bow thruster and to the drag the
hull experiences when underway.
– Length ‘L’ of the fairing should be between 1 x D
and 3 x D.
– This fairing should be embodied in the ship’s hull in such a way that the
centreline of the fairing will correspond with the anticipated shape of the
bow-wave.
If the connection of the thrust tunnel and the boat’s hull is to be made with
a sloped side, it should be executed in accordance with the drawing.
Make the
sloped side (C) with a length of 0.1 to 0.15 x D and make sure that the angle
between the tunnel and the sloped side will be identical to the angle between
the sloped side and the ship’s hull.
3.4 Grid bars in the tunnel openings
Although the thrust force will be adversely affected, grid bars may be placed
into the tunnel openings, for protection of the thruster.
In order to limit the negative effect of this on the thrust and on hull
resistance during normal operation as much as possible, the following must be
taken into account:
– Do not fit more bars per opening than is indicated in the drawing.
– The
bars must have a rectangular cross-section.
– Do not fit round bars.
– The bars must overlap a certain amount.
– The bars must be installed so they are
perpendicular to the expected waveform.
3.5 Installation of the thrust tunnel
- Drill 2 holes in the hull, where the centreline of the thrust tunnel will be, in accordance with the diameter of the marking tool.
-
Pass the marking tool (home-made) through both pre-drilled holes and mark the outside diameter of the thrust-tunnel on the hull.
D [mm] (inches)Steel| GRP| Aluminium
194 (7 41/64″)| 196 (7 23/32″)| 196 (7 23/32″) - Dependent on the vessel’s construction material, cut out the holes by means of a jigsaw or an oxy-acetylene cutter.
- Install the thrust-tunnel.
Polyester thrust tunnel:
Resin: The resin used for the polyester thrust tunnel is Isophtalic
polyester resin (Norpol Pl 2857).
Pre-treatment: The outside of the tunnel must be roughened. Remove all of
the top surface down to the glass-fibre. Use a grinding disc for this.
Important : After the tunnel been sawn to length, treat the end of the
tube with resin. This will prevent water seeping in.
Laminating: Apply a coat of resin as the first coat. Lay on a glassfibre
mat and impregnate with resin. Repeat this procedure until you have built up a
sufficient number of layers.
A polyester thrust tunnel should be finished as follows:
- Roughen the hardened resin/glass-fibre. Apply a top coat of resin.
- Treat the side of the tunnel which comes into contact with water with ‘epoxy paint’ or 2-component polyurethanepaint.
- Then apply anti-fouling treatment if required.
3.6 Drilling the holes in the thrust-tunnel
– Mark the installation position of the bow thruster by means of the
intermediate flange.
– Use the drill pattern supplied, to determine the correct position of the
holes to be drilled.
Important: The pattern of the holes must be positioned precisely on the
centreline of the tunnel.
Consult the template for the dimensions of the holes
to be drilled. Drill the holes through the thrust tunnel and take care that
the holes are free of burrs.
3.7
Protection of the bow thruster against corrosion
To prevent corrosion problems, do not use copper based antifouling.
Cathodic protection is a ‘must’ for the protection of all metal parts under
water and the bow thruster is supplied with a zinc anode for this purpose.
Corrosion
of a steel or aluminium thrust tunnel can be reduced by ensuring that the tail
piece is completely insulated from the thrust-tunnel.
NOTE:
The gaskets supplied are already electrically insulated. However the bolts and
the shaft need to be fitted with insulation material, for example nylon
bushes.
Installation
In order to install the tunnel, consult chapter 4 ‘Installation
recommendations.
For overall dimensions see drawing, page 110.
Note
The areas in which the electric motor of the bow thruster and the battery are
positioned must be dry and well ventilated.
4.1 Preparation
The bow thruster will be delivered fully assembled.
Perform the following steps:
- Remove the propeller.
- Remove the motor from the intermediate flange.
- Remove the intermediate flange from the tail piece.
The 2
bushes are only required for transport and are now no longer needed.
4.2 Installation tailpiece and intermediate flange
- Ensure that the plastic shim plate (1) has been positioned on the tail piece.
- Place one packing (2) between the tail piece and the tunnel.
- Apply a sealant (e.g. polyurethane or silicone) between the tail piece and packing, and between the packing and the tunnel wall.
- Place the tail piece in the hole in the tunnel.
Any extra packings used should be ones capable of justifying the tail piece.
*) e.g. Sikaflex®-292.
- Grease the hole of the intermediate flange and position this flange.
- Grease the threads of the bolts with ‘outboard gear grease’*) before inserting and tightening them.
Note
Check for possible leaks immediately the ship returns to water.
4.3 Final assembly
- Grease the propeller shaft with ‘outboard gear grease’*) and install the propeller.
The propeller should run a minimum of 1.5 mm (1 / 16”) free of the thrust tube wall, all round.
-
Slide the flexible coupling onto the output spindle of the electric motor as far as necessary to allow the end of the output spindle (A) and the underside of the flange (B) to become aligned.
-
Tighten the lock-screw (C). Grease the input shaft with an installation compound, like ‘Molykote® G-n plus’.
-
Grease the threads of the fastenings bolts with ‘outboard gear grease’ *) and install the electric motor to the intermediate flange.
-
For a first check, turn the propeller by hand, it should turn easily, whilst being connected to the output spindle of the electric motor.
A suitable grease is VETUS ‘Shipping Grease’, Art. code: VSG.
Electrical installation
Check that the voltage, recorded on the motor type plate, is in agreement with
the vessel’s circuit voltage.
5.1 Choice of battery
The total battery capacity must be sufficient for the size of the bow
thruster. See page 106 for the applicable battery capacity.
We recommend VETUS maintenance free marine batteries; these can be supplied in
the following sizes: 55 Ah, 70 Ah, 90 Ah, 108 Ah, 120 Ah, 143 Ah, 165 Ah, 200
Ah and 225 Ah. We also recommend that each bow thruster is powered by its own
separate battery or batteries.
This allows the battery bank to be placed as close as possible to the bow
thruster; the main power cables can then be short thus preventing voltage
losses caused by long cables.
Note
Be sure to only use ‘sealed’ batteries if the batteries are located in the
same compartment as the bow thruster.
The VETUS ‘SMF’ and ‘AGM’ maintenance-free batteries are ideally suited to
this application.
Batteries that are not ‘sealed’ may produce small amounts of explosive gas
during the charging cycle.
Sparks generated by the carbon brushes of the bow thruster motor may ignite
this explosive gas.
Always use batteries whose type and capacity are compatible for their use.
Caution
In extreme cases, for example when a battery with a capacity of five times or
more than suggested is used, there is the danger of causing permanent damage
to one or more of the following shaft connections:
– The connection between motor shaft and the tail piece input shaft.
– The connection between the tail piece output shaft and the propeller.
5.2 Main switch
The main switch must be fitted to the ‘positive cable’. The VETUS battery
switch type BATSW250 is a suitable switch. Main switch with remote control
Instead of a storage battery main switch, a remotely controlled main switch
annex emergency stop can be installed.
This remotely controlled main switch is available for 12 or 24 Volt DC.
VETUS art. code: BPMAIN12 respectively BPMAIN24.
5.3 Fuses
A fuse must be included in the ‘positive cable’ for the main switch, as close
to the battery as possible.
This fuse protects the on-board power cabling from short circuits.
For all fuses we can suppy a fuse holder, VETUS part no.: ZEHC100.
See page 106 for the size of the fuse to be used.
5.4 Main power cables (battery cables)
The minimum diameter must be sufficient for the bow thruster’s current draw in
use and the voltagedrop must not be more than 10% of the voltage supplied,
consult the table on page 106.
Note
The maximum duration of engagement and the thrust, as specified by the
technical details in your bow thruster installation and operating manual, are
based on the recommended storage battery capacities and storage battery
connection cables.
If appreciably larger batteries in combination with very short connection
cables with appreciably larger diameter than recommended are used then the
thrust will increase. In such cases the maximum operating time must be reduced
in order to prevent damage to the motor.
5.5 Connecting the main power cables
Make sure that no other electrical parts come loose when connecting the
electric cables.
Check all electrical connections after 14 days. Electrical parts (such as
bolts and nuts) may come loose as a result of fluctuations in temperature.
Connect the main power supply cables.
Note
Be careful not to rotate the bolt and nut 1 while connecting the cables. To
prevent this happening, keep an open-ended spanner on nut 1 while screwing on
bolt 2, without rotating this spanner.
The torque for nut 2 is 9 -11 Nm (6.5 – 8 ft.lbf ). 5.6 Bow thruster control
panels
Fit the control panel next to the steering position. There must be at least 50
mm (2”) space behind the panel.
If 2 bow thrusters have to be operated simultaneously, for example on a
catamaran, consult the diagram on page 110.
Fit the control cable between the bow thruster
and the control panel through the vessel and connect the jack connections
together.
If it is necessary to cut the intermediate cable and reconnect it take care to
ensure the correct colours are connected together.
N.B: The colours of the wire cores in the intermediate cable may differ from
the wire core colours as used on the bow thruster motor and on the control
panel!
If there are two steering positions, the second control panel can be connected
to the first one.
5.7 Delay when reversing the thrust direction
If a delay is desired where one of the following operating devices is
installed, a delay switch can be installed.
Operating device:
– BPJSTA, separate turn switch (Joystick),
– BPSM, operating panel for side mounting,
– FSxx, foot switch button
Delay: VETUS art. code: BPTD
Test run
WarninG!
Never operate the bow or stern thruster without load!
Switch off the bow or stern thruster immediately if it no longer provides
thrust during operation!
If it is found during test running that the thrust direction does not
correspond with the direction switch on the control panel then the blue (no.
- and the white (no. 4) wires on the relay must be interchanged.
Use
WarninG
This product should only be operated by persons who have read and understood
the instructions and precautions in this manual. Failure to follow the
instructions in this manual may result in serious injury or property damage.
The manufacturer shall not be liable for any damages resulting from improper
operation.
WarninG!
Never operate the bow or stern thruster without load!
Switch off the bow or stern thruster immediately if it no longer provides
thrust during operation!
- Switch on the main switch.
- Consult the handbook supplied with the control panels for instructions on using the bow thruster.
Never switch in one movement from starboard to portside or reverse, but wait until the propeller stands still, before giving it a command to operate the electric motor in the opposite direction.
Care!
If 2 control panels are installed never operate the bow thruster from both
panels simultaneously.
- Switch off the main switch when leaving the ship.
- Keep in mind that the carbon brushes in the motor release fine (black) dust. Do not store fragile equipment near the bow thruster motor.
Trouble shooting
Electric motor does not operate
– Check that the battery main switch is ‘ON’.
– Check whether the control panel fuse has burnt out. [1] – Check if the main
fuse has burnt out. [2] In all the above cases, the ‘POWER’ indicator LED is
not lit.
– The electric motor has overheated and its thermal Protection has broken the
circuit of the control current.
The panel gives a warning signal three times ( . – . . – ) and the LED will
glow red.
As soon as the motor has cooled down enough, the LED will resume glowing green
and the bow thruster can be put back in service.
Check if it is possible to turn the propeller. A piece of wood or similar
could have been caught between the propeller and the tunnel.
Electric motor turns slowly
– The battery is flat.
– Bad electrical connection(s) due to e.g. corrosion.
– The carbon brushes are not making proper contact.
– The battery capacity is reduced because of very low temperatures.
– Weed or fishing line has become caught in the propeller.
Control panel fuse is burnt out [1]
– Short circuit in the operating circuit; check the wiring.
Electric motor turns (too) fast but there is no thrust
– The blades of the propeller have been damaged by a foreign object having
entered the propeller or tunnel.
– The drive pin on the propeller shaft has been broken by a foreign object
having entered the propeller or tunnel.
Replace the drive pin and check the propeller flange for any damage.
After pressing the on/off switch on the panel, the panel is not switched
on.
– The on/off switch must be pressed a second time within 6 seconds.
The LED will then remain green and the buzzer will confirm that the panel is
ready for use by giving the signal (- . -).
Technical data
| Type | BOW601 2D | BOW6024D |
|---|---|---|
| Electro motor | ||
| Type | reversible DC motor | |
| Voltage | 12 V = | 24 V = |
| Stroom | 300 A [3] | 165 A [4] |
| Rated output | 3 kW | |
| No. of revolutions | 3400 omw/min | |
| Rating | S2 – 4 min. [3] | S2 – 4 min. [4] |
| Protection | IP20 | |
| Transmission | ||
| Gears | Conisch, spiraal vertanding | |
| Gear ratio | 1.7 : 1 | |
| Lubrication | oilbath, approx. 0.06 litre (2 fl.oz.) outboard gear oil SAE80W |
or EP 90
Housing| bronze
Propeller|
Diameter| 178 mm (7”)
No. of blades| 6
Profiel| asymmetrical
Material| polyacetal (Delrin ®)
Rated thrust| 650 N (65 kgf)| 700 N (70 kgf)
Control circuit|
Fuse| Blade type fuse ‘ATO’ 5 A
Current solenoid switch :| 2,8 A| 1,4 A
Thrust-tunnel|
Steel model|
dimensions| O.D. 194 mm, wall thickness 5.6 mm
treatment| blasted, coated with: SikaCor Steel Protect. Suitable for all kinds
of protection systems.
Plastic model|
dimensions| I.D. 185 mm, wall thickness 5 mm
material| glass fibre reinforced polyester
Aluminium model|
dimensions| I.D. 185 mm, wall thickness 5.5 mm
material| aluminium, 6061 or 6062 (AlMg1SiCu)
Weight
Excl. thrust-tunnel| 22 kg (49 lbs)
[1] The control current fuse is in the bow thruster motor. A spare fuse can be
found in the relay cap, see p. 111.
[2] See table on page 106
Length of usage:
[3] 4 min. continuously or max. 4 min. per hour at 300 A (12 Volt).
[4] 4 min. continuously or max. 4 min. per hour at 165 A (24 Volt).
Battery capacity, battery cables
Bow thruster| Battery capacity
required| Total length of
plus- and minus cable| Cable cross-section| Main power fuse, see 53
---|---|---|---|---
Minimum| Maximum| ‘slow blow’| VETLIS art. code
BOW601 2D
60 kgf -12V| CCA SOO| CCA 1000| 0 – 2,9 m| 0 – 9.5 ft| 25 mm2| AWG4| 200A|
ZE200
2,9 – 4,0 m| 9.5 – 13.1 ft| 35 mm2| AWG2
4,0 – 5,7 m| 13.1 – 18.7 ft| 50 mm2| AWGO
5,7 – 8 m| 18.7 – 26.2 ft| 70 mm2| AWG 00
8 – 10,8 m| 262 – 35A ft| 95 mm2| AWG000
10,8 – 13,7 m| 35.4 – 44.9 ft| 120 mm2| AWG 0000
13,7-16m| 44.9-52.5ft| 2x 70mm2| 2 xAWG 00
16 – 17,2 m| 52.5 – 56A ft| 150 mm2| AWG 300 MCM
17,2- 21,7 m| 56A- 71/ft| 2 x 95 mm2| 2 x AWG000
21,7 – 27,4 m| 71.2 – 89.9 ft| 2 x 120 mm2| 2 x AWG 0000
27,4 – 34,3 m| 89.9 – 112.5 ft| 2 x 150 mm2| 2 x AWG 300 MCM
BOW6024D
60 kgf – 24 V| CCA 275| CCA 550| 0 – 10,3 m| 0 – 33.8 ft| 25 mm2| AWG4| 100 A
---|---|---|---|---|---|---|---
10,3 – 14,5 m| 33.8 – 47.6 ft| 35 mm2| AWG2
14,5 – 20,8 m| 47.6 – 68.2 ft| 50 mm2| AWGO
20,8 – 29 m| 68.2 – 95.1 ft| 70 mm2| AWG 00
29 – 39,5 m| 95.1 – 129.6 ft| 95 mm2| AWG000
39,5 – 49,8 m| 129.6 -163A ft| 120 mm2| AWG 0000
49,8 – 58 m| 163A -1903 ft| 2 x 70 mm2| 2 x AWG 00
58 – 62,3 m| 1903 – 204A ft| 150 mm2| AWG 300 MCM
62,3 – 79 m| 204.4 – 259/ ft| 2 x 95 mm2| 2 x AWG 000
79 – 99,7 m| 259.2 -327.1 ft| 2 x 120 mm2| 2 x AWG 0000
99,7 – 124,6 m| 327.1 -408.8 ft| 2 x 150 mm2| 2 x AWG 300 MCM
Wiring diagram
| 1 | Main fuse |
|---|---|
| 2 | Main switch |
| 3 | Control current fuse |
| 4 | Solenoid switch |
| 5 | Electromotor |
| 6 | Control panel |
| 7 | Battery |
| 8 | Plug |
| 9 | Socket |
| 10 | Extension cable |
| 11 | Alternator |
| 12 | Thermal Protection |
Wiring colour code:
| 1 | Blue |
|---|---|
| 2 | Red (+) |
| 3 | Black (-) |
| 4 | White |
Elektrisk skema
11.1 Simultaneous operation of two bow thrusters with one panel
Principal dimensions
| | BOW6012D BOW6024D| Service parts
---|---|---|---
pos| qty| part| description
1| 1| SET0060| Electromotor 3 kW – 12 V for BOW6012D c/w solenoid switches
| 1| SET0108| Electromotor 3 kW – 24 V for BOW6024D c/w solenoid switches
2| 1| SET0015| Set of solenoid switches 12 V for BOW6012D
| 1| SET0020| Set of solenoid switches 24 V for BOW6024D
3| 1| SET0126| Set of 8 pcs of carbon brushes for BOW6012D
| 1| SET0127| Set of 4 pcs of carbon brushes for BOW6024D
4| 1| BPC00100| Relais cover
5| 1| SET0006| Set of 2 pcs knurled nuts
6| 1| BP1202| Coupling
7| 1| BP1302B| Intermediate flange
8| 1| SET0091| Tailpiece compl.
9| 1| SET0150| Zincanode c/w screws
10| 1| SET0088| Propeller c/w drive pin and mounting set
11| 1| BP275S| Propeller pins, 5 pcs
12| 2| BP1020| Gasket 2 mm
13| 1| BP1021| Gasket 1 mm
14| 1| TS110| Thermal Protection
15| 1| BP256| Spare fuse 5 A
Fokkerstraat 571 – 3125 BD Schiedam – Holland
Tel.: +31 (0)88 4884700
–sales@vetus.com
–www.vetus.com
Printed in the Netherlands
020547.05 2023-10
Documents / Resources
|
vetus BOW6012D Bow
Thruster
[pdf] Instruction Manual
BOW6012D Bow Thruster, BOW6012D, Bow Thruster, Thruster
---|---