Saturday, 20 March 2010

float test.


next job new bathroom. gonna need bigger bath for next model!!!!
also decided boat needs a launching trolley as at 35.5 Kg its too heavy for me to lower from slipway into llyn padarn.
a great big round of applause please to Model Slipway in yorkshire for a great model at a very reasonable price. I have enjoyed every minute making.
next post will be video on the lake on youtube. will let you all know when.

electrics continued.

short delay caused by doing a delivery bilbao to dublin of a small
voith schneider propelled tug called Beaufort for dublin port company.
6 days to take over from shipyard, obtain certificates and prepare for sea passage. 4 beautiful days at sea with very kind weather force 3 max. we had to go round the coast of biscay for insurance purposes but more days more dollars. a day handover in dublin, night in hotel then back to holyhead on ferry. no flying, yippee!!

got home to find speed controllers had arrived so installed all
electrics. but then found transmitter had been affected by damp
so could not program it for new model. sent that off to the
graupner transmitter krankenhaus for repair. while waiting for
that to return did float test in bath, shifted main batteries
to obtain required trim and found she floats on her marks with
no further ballasting required.
am using 2 x 12v, 7 A/hr gell batteries mounted on their sides
for main motors,
1 x 6v pack of 4 x 1.5 v 2500 mA/hr NiMH AA cells for bow
thruster.

2 x 20 Amp viper marine reversable electronic speed controllers
(esc) for main motors.
1 x 10 Amp esc for thruster.

2 x standard servos for port and starboard rudders.
2 x 20 Amp switches and 1 x 10 Amp switch for main motors
and thruster respectively.
2 x 15 amp fuses for motors and 1 x 5 Amp fuse for bow
thruster.
intend rigging external charging points for batteries so won't
need to disturb covers.

1st pic shows main batteries, receiver and its powerpack.
2nd shows antenna exit point between port funnel and deckhouse.
3rd shows escs and servos with esc switches.
4th shows motor and thruster switches and fuses.

total hours 300 dead.

although this model more involved than voith "parat" experience
gained doing her stood me in good stead for this one.

am going away again next week to deliver a supply boat from
ravenna (Italy) to Istanbul. should get 2 weeks out of that.





Saturday, 6 March 2010

FINISHED!!!!

finished fitting tyres, last touch up and construction is complete.

still waiting for r/c gear. come on postie!!!















Friday, 5 March 2010

the electronics bit.

yesterday realised model had no radio antennae so knocked up a duplex pair of mf/hf aerials with antenna matching units out of a scrap bits of 6x3mm plastic and 0.8mm wire. will do some vhf aerials this afternoon. glued up the rudder halves onto the rudder shafts with slow set epoxy. got to be really careful not to get any ooze out in the bearings. painted inside hull with grey primer, bit of window dressing. have been looking at electronic speed controllers (esc) on 'tinterweb. have had my eye on viper marine 20amp units for main motors and 10 amp for bow thruster motor. however b/th is 6volt and main motors are 12v. i understand that escs do not reduce voltage but switch the supply on and off very quickly. the varying of time on, with respect to time off, thus permits the motor to be controlled. i believed that excess current (electron flow) is what causes motors to burn out, so if the current is restricted heat build up should also be restricted and as i can program my transmitter to not request esc to deliver full current then my motor would be safe. i needed advice so spoke to mrs. white at model slipway and she put me on to dave milbourn at action electronics (he drew up the working plans for aziz and a plan of the suggested electrical layout). he shot me down in flames and suggested i use a separate 6v power supply dedicated to the bow thruster. i decided to heed his advice as i don't want to prove myself wrong the hard way. (i have made the thruster motor accessible but only just). he also suggested i us a dual mixed esc module which reduces the speed of the inboard motor when rudders are moved. i have seen these modules in action but they are used to simplify the installation and save money but this is obtained at the expense of the full manoeverability that i wish for. it has been shown many times on full sized vessels, turning at speed, that reducing power to the inboard engine actually reduces rate of turn rather than increasing rot. this is because the lift of the rudder is greater than the torque between props. i am going to have independent motors and also independent rudders as per most supply boats. on a full size vessel it can take 20 seconds for the rudders to go hard over from one side to the other and when your close under a rig that's too slow. by swinging both rudders inboard and forgetting about them, the rudder on the ahead screw is always in position to swing the stern.(rudder position on astern screw has little or no effect). the engines can go from ahead to astern in most cases in 8 seconds or less. this is what i'm used to and will incorparate in the finished model. then i can "make it talk".
so i'm eagerly awaiting the postman with my servos, extension leads and escs. got to get some fuse holders and a couple of 20 amp switches and then i can box the job off. i'm going away on sunday to deliver a new tug from bilbao, spain to its new owners in dublin. hope to be back in 7-10 days weather permitting (march-biscay-some hope) more days more dollar!!

Wednesday, 3 March 2010

continued.

painted navlights, fitted them, then fitted radars, finally secured mainmast on funnel mounts.
fitted liferafts and made up securing wires.


winches in position but not yet secured.


fitted bridge to foc'sle ladders. made up, fitted and painted outboard handrails.
did a fair bit of touching up on paintwork. never seem to finish. every time i look from a funny angle i see more overpaint and holidays.
should finish construction tomorrow. then just got to do the radio bits, 2x 15 amp electronic speed controllers for main motors, 1x 10 amp for bowthruster and 2x standard servos for rudders.
total hours 260.

end in sight!!!


finished putting wires on winches. made up and fitted assorted sockets and eyes on ends of the wires. made two standard sockets,(can't remember what they're called, Smudge???)out of a bit of white metal, cut roughly to shape, drilled the wire and shackle holes then filed to a finish.



made a ring for the anchor handling wire out of the ring (not required) off one of the anchors.
fitted the props, outboard turning, used medium loctite thread lock on threads of props and universal couplings.
see next post. can only get 3 pics uploaded per post.

Tuesday, 2 March 2010

quarter fenders and putting wires on tugger and towing winches.

the kit comes with rope which i will use to make up 4 mooring lines. the winches should have wire, approx 1.6mm for towing drum and 0.5mm for tugger winch. have been on the lookout for suitable wire and while getting some threadloc for the props and couplings in the motor factors, spotted this (0.8mm stainless 3 strand) which looks ok on both drums. it takes nearly as long to do as the real thing. not my favourite job. will do other tugger and anchor handling drum tomorrow. also finished the quarter fenders.
total hours 250.

Monday, 1 March 2010

more fitting out.


fitted all remaining vents on foc'sle. then anchor cables.
then fitted remaining ladder, discharge/load valve sets port and stbd, bunker connections and fire dampers.

from 5mm plastic pipe and 1.6mm brass rod, made up wire deflectors over bitts. drilled 1.6mm holes in bulwark capping and fixed with cyo.
drilled 88x 0.8mm holes for u-bolts to hold fender chains. when fitting u-bolt found the holes too small so had to re-drill 1mm. plan stated 0.7mm but though i have this drill, hand-drill chuck is too big to hold it.

fitted the bow fender. u-bolts are pushed through the holes and the ends bent over inside hull. very fiddly. tomorrow will complete quarter fenders.
total hours 241.