Saturday, 21 June 2014

Part 5 - Engine Start

This will be a short post, as the engine, after its full rebuild, started straight away. Nice!




Thursday, 19 June 2014

Part 4 - Rewiring



When the bike was purchased, only the bare essentials had been wired using the blue and brown wires from some mains flex. Naturally, this was removed. A complete harness was then built using new thin wall cabling. This proved to be a fairly simple task once the customised wiring diagram was developed.

The Ignition System

The bike came with all of the necessary components for the ignition. This included the short wiring stubs the connect between the electronic ignition, coil and magneto. This saved me some time. However, none of the other parts were supplied. For example there was no rectifier and no regulator.

The Magneto Generator

The stator on the TS250 contains three coils (actually it is four as the ignition has a primary and secondary coil wound on the same former). In my case the ignition coil(s) was simply connected to the electronic ignition using the original connectors. However, the two remaining coils, the lighting coil and the charging coil, needed some attention as there were some decisions to be made.

The Rectifier

The rectifier is responsible for converting the alternating current (AC) from the  charging coil to direct current (DC), suitable to charge the battery. The original TS250 uses half-wave rectification, which is a fairly crude approach, however, as it is  effective enough, I simply purchased a new Suzuki rectifier. These items are not expensive and an after market one would have been just as good.

Charging

The charging system involves taking the output from the charging coil and connecting it through the rectifier to the battery. The challenge is selecting the correct connection from the charging coil as there are two.

There is a yellow/white wire and there is a green wire. The yellow/white wire has a higher output than the green wire and is used when the lights are on. The green wire is used when the lights are off. Therefore, this means that the charging circuitry is routed through the light switch.

Buy the correct coloured cable.
Im my case, I have no lights other than a brake light. Therefore, I can keep things simple and simply use the green wire. The diagram shows the full circuitry for my bike, including lights, albeit without indicators. The circuit diagram was created by scanning one from a page of the workshop manual and then simplifying it using Photoshop.

Creating the Wiring Loom

For this I cheated. Once the wires were laid out across the bike, I use a product call Spiral Cable
Binding. This stuff is awesome and makes wiring a bike a breeze. The really good thing is that it makes it really easy to re jig the wiring loom when it is time to add the lights.

All ends were created using soldered bullets and were connected using the single and two way bullet connectors. These are simple to fit especially if you are handy with a soldering iron. Making a small wooden jig to hold the bullets can be a great help.

The Regulator

The regulator is designed to maintain a constant voltage irrespective of the speed the engine is running this helps the bike from blowing bulbs etc.

A regulator can be hard to come by as it needs to be an AC type. The regulator sits across the output from the lighting coil and the earth/ground. To date I have decided not to bother as I do not have any lights at the moment. However, having spent the first 20 years of my career in the electronics industry, I have a mind to build one. If I sort it out I will post details.

UK/USA Differences

The main difference between the US and UK wiring is that in the US the lights were designed to be permanently switched on. This means that the charging circuitry can be much simpler and does not need to be routed through the light switch.

Part 3 - Removing the Blind Bearing using a 'Lewis Bolt'


There is a blind bearing on one side for the gearbox shaft, this was a challenge to remove. Despite many discussions with experts on the Suzuki TS forum, the thing would not move. However, a trip to the Roman Baths in Bath helped solve this one. At Bath they had an exhibit that described how masons lifted stone using a Lewis Bolt.

The blind bearing to be removed.
Using some DIY brackets to create a Lewis Bolt

Place the bent bracket in first and then fill the hole with the others.


Find a suitable clamp.
Pop a bolt through the lined up holes.

Draw it out.


Part 2 - The Engine Rebuild

We have separation.
This was the first thing on the agenda. The engine had not been split before and after 35 years proved to be a tad tricky to get apart. However, after much patience and the purchase of a flywheel puller, it eventually came apart cleanly.

All bearings were replaced as were all oil seals. There is a blind bearing on one side for the gearbox shaft, this was a challenge to remove. Despite many discussions with experts on the Suzuki TS forum, the thing wouldn't move. However, a trip to the Roman Baths in Bath helped solve this one. See the separate post on how this was done using a homemade Lewis Bolt if it is of interest.

All bearings were replaced with Koyo bearings and a local engineering firm rebuilt the crank, rebored the cylinder and supplied the piston and rings. During the re-build many new parts were used including stainless Allen bolts throughout and most importantly, a new Suzuki NOS reed valve.

The strip down commences.


Take away curry containers are so handy.



The heart/oil pump.



More bits.
Gearbox kept in-tact for now.

Removal of old main bearings

All ready for the rebuild.



Like a work of art.

Time to re-unite the crankcase halves.



All Done.



Barrel with new piston.


Lots of new Suzuki parts including a very expensive new reed valve.


New studs for the head.

Back in the frame.

Part 1 - The Purchase

Note the incorrect exhaust and re-engineered head.
After a mad hour on eBay I found myself to be the proud owner of a 1979 Suzuki TS250. The TS250 is a bike I had wished I had owned back in the seventies. Nostalgia, or possibly a mid-life crisis, insisted I buy the bike.
It's not clear in the picture but the engine casing is home made.

The bike looks pretty good in the images, and £320 may seem cheap. A closer inspection showed that what I had was a reasonable project rather than a reasonable bike.

A bread basket full of oddments was included along with the all important original high-level exhaust.

The engine turned on the kick start but there was clearly something not right. I opted to remove the barrel for a closer look.

The engine needed a rebuild with +0.5 re-bore, new piston, main bearings and con rod. In addition the home made casings would need to be replaced along with a few other items.

Like I said, a reasonable project.

A bread basket full of bits.
The all important original exhaust.