Showing posts with label headsets. Show all posts
Showing posts with label headsets. Show all posts

Thursday 1 April 2021

Chuck's Tech Opinion: How to decide what to keep and what to change on a Raleigh Twenty, and Pedals!

As you work on a Twenty, you start to get a feel of the engineering. I find it useful to categorise: some parts are really well thought out and function well, others are merely adequate for their job and there's another category of redundant, useless, or poorly designed stuff. Then layered over that, some parts have elegance, possibly even beauty, while others are downright ugly. Add yet a further layer, namely weight, and a recipe emerges as to how to go about deciding what to keep and what to change. 

Take the pedals. In the photo below (starting top left and going anti-clockwise): originals off a BSA 20, modern MTB style polymer flatties (BBB brand) and a generic polymer trap-type pedal:


Both the modern pedals have reflectors, today a legal requirement for safety, whereas the R20 pedals do not. Now, this R20 pedal has a certain elegance, it's true, but it's also narrow. Uncomfortable over a length of time, especially in soft soled shoes, as your feet curl over it. The weights add another factor:

Pedal type g per pair
R20 651
MTB Flatties 336
Polymer Cage      286

I think it's remarkable that the old R20 pedals weigh so much, nearly 1.5lb! I discarded the polymer cage, for two reasons: the bearings on one were notchy and I didn't like the style for this bike. I thought it would be funky to have the MTB flatties. Apart from the beautiful wide platform they provide, the reflectors for safety and the weight saving (a stonking 315g), they are also shorter (12.1 cm v 11.0 cm from crank to pedal tip) and thinner, both of which reduce the chance of a pedal touching the road in a corner. So, my choice is made to switch to the MTB Flatties. 

That all sounds great, but then I tried fitting the MTB Flatties and to my surprise while the diameters were comparable (9/16"), the threading was different! I wondered whether the cranks had some old English threading, but that seems like an odd explanation, because I've managed to get modern pedals on a R20 before and know that others have too. More likely, perhaps the threading tooling that Raleigh used was slightly different to modern standard. It could be just some R20s that were like this. I tried a few pedals and I found that most of them were too tight, but one or two modern pedals went in ok, but only on one crank. Whatever the reason, after playing about a bit with modern pedals, I now feel that for this project, I will stick with the original pedals. They are a basic, but serviceable design. The end cap prises off carefully with a thin screwdriver. Underneath, two spring clips and a washer to remove:


There are no BBs just a plain bearing. The axle at the top simply slides into what looks like a tapered sleeve in the pedal, then the washer with flats is added and the two spring clips to hold it all down. This one was gummed up and a quick clean and regrease worked wonders. They spin super smoothly now. At least they are hardly worn and have plenty of service to give. They'll clean up ok and add to the retro look. 

Now consider the light bracket:


What an ugly lump that is, and given modern lights, it's redundant too. It serves a purpose in the headset, that is to increase stack height by a few mm in order to prevent the top lock nut from bottoming out. But that function can be easily achieved with a small standard spacer. How much does this monstrosity weigh? 77g! That's about the weight of SEVEN AAA batteries! Wowsers. Guess where that's going? Yes, in the recycling bin. NB, you have to remove the front brake caliper to get the stem out in order to lift this off the headset (see my post a few days ago on that wire loop thingy that restricts the movement of the stem vertically).

Note that by just by changing pedals and ditching the light bracket, you could save nearly 400g. Astonishing. 

You can repeat this thought process for every other item on the R20, using the factors I suggested at the top of this post (I'm not considering maintenance items, such as brake pads, tyres, BBs, chain and cables):

Sturmey Archer hubs (both the front one and the rear epicyclic AW gear unit): 
Elegant, well thought out, very functional, design kudos, unique, a bit heavy, but worth it! Pretty when clean and polished! I would keep these in nearly every case, unless there was a radically different vision for a particular build. 

Chainset: 
They are not all the same. Some patterns are indeed beautiful, others look more functional, but they have some eye appeal, I like the stamped "Nottingham Knight". They function well if you can deal with cotter pins and can live with the heavy chromed steel.

Bottom bracket:
It's perfectly functional, and isn't heavy, so in my view, this comes down to condition, and how important it is for you to change the chainset/eliminate cotter pins. The axle is a solid thing, and very rarely needs replacement. So, a good service with new BBs is usually all that's needed if you stick with cottered cranks. However, if you want to open up the world of square taper chainsets, then I believe that the simplest and best option is to find a square taper axle that fits and retain the same bottom bracket cups and 1/4" BBs. If that's not possible, then face the shell to 73mm or even 68mm (the width of my BSA 20 shell is 77mm as best as I could measure it), and rethread to standard 24 tpi. Some say that you should fill the threads with with a suitable molten metal before re-threading, but I've also read that many people have had success just rethreading directly, but slightly deeper than the original threads. Clearly a specialist's job. Failing any of those, then a problem solver may be a new threadless (friction fitting) unit. 

Saddle:
Really ugly, uncomfortable for me, and enormously heavy! It's gotta go. 

Seatpost:
Ugly, too short for many people, and very heavy, especially being steel with the steel clamp. Easy swap out to a modern one 28.6 usually. It's gotta go. 

Chrome steel Handlebars and Stem
Function ok, and have a certain elegance. However, they are really rather heavy and often this is were customisation and your personal vision take over. A quill stem, with alloy riser bars, or bullhorns, etc. 

Hand grips:
Yeuk! Hard ugly plastic and short. The only positive thing I can say about them is that they are hard wearing. But, I really think they have to go in just about any project (save for a restoration to original spec). 

Chrome steel rims:
Work ok, but do not brake as well as alloys, especially in the wet. Look nice when clean and polished up. Heavy! My front wheel without nuts, rim tapes, or tyres weighs 940g. With rim tapes, tyres and nuts it weighs 1547g. Go or stay? It's really one of preference and also considering the condition of the steel rims that you have, the hassle of doing a rim swap, or finding/building another wheel that fits and also brakes that work with them. On the other hand, if you're not accelerating and braking a lot then, a heavy wheel provides a nice flywheel effect for steady riding - which is what I tend to do on a Twenty. 

Nylon bushing top part of the headset: 
Functions just about adequately, especially if you get a chance to clean it and lube the surface that touches the steerer, and adjust the headset properly. Once the light bracket is off, there's not much in the weight. So this one is a matter of preference again. This photo is of my current project, rust cleaned off and polished. I've kept the Nylon bushing, but ditched the light bracket (hence the black spacer):


Another approach is to remove the Nylon bushing and install the top half of a 1" threadless headset. When I do that again in the future, I'll be sure to take enough photos and post them on this blog. 

Frame: 
It wouldn't be a Twenty without one! It's a classic, has got to stay.

Forks:
They are designed to fit the cone flanges of the Raleigh Sturmey Archer front hub and they work well enough. A bit heavy. I think this one is mainly down to whether you keep that front hub or not. Also whether you want to do something funky, like BMX forks for 451 or 406 wheels or suspension forks. In which case, you can also change the whole headset. 

Paintwork:
What condition is it in, and do you like it? Will it clean up nicely (after a wash, T-Cut and car polish)? Simple as that. 

Clamps and Locking levers on steerer and seat tube:
These function adequately if well-maintained and positioned properly (evenly over their respective tubing slots). They add a bit of weight, but also provide easy quick adjustment. Also, if you are fitting a quill stem, the front clamp becomes unnecessary and can go (or stay!). So it's really up to you. 

Brake caliper units:
Can function adequately if you take the time to set them up well, and they polish up ok too. Remove rust with WD40 and 0000 steel wool, chrome polish, lubricate and fix and adjust them properly. Use fresh cables. In many instances, I've changed only the inner wires, as the outer cables were fine. If the ends of the outer cables are kinked, you can snip off 5-10mm cleanly and that will improve the performance quite a bit. Modern alloy units would be an improvement and weigh less, but I think this one is really a matter of preference.  Here's a front caliper, with rust cleaned off one arm, but not yet the other one:



Brake levers:
In my view they function adequately, and being steel are better than plastic levers! But there are lighter and better modern alternatives. So, it's a matter of preference for your particular build I think. 

Mudguards (Fenders):
Functional, but do not have the break-off arms for safety as modern ones do and are relatively heavy. Must mount them properly and securely, or those beefy mounting arms could foul a wheel and cause a bad accident. I'm powder coating mine on this build.  

Chainguard:
Serves a function (keeping your trouser leg clean!) and has a certain appearance. Don't weigh a great deal, but grams are grams. It's up to you! I'm powder coating mine on this build.  

As I've said before, the Raleigh Twenty is like a blank canvas to a bike builder! The Raleigh bronze green BSA 20 that I'm working on at the moment is going to retain most of its original components, but with modern contact points (pedals, saddle/seatpost and hand grips). The next one may be a light weight with funky bars and alloy rims, but I haven't clearly figured out my direction on that one at this time.  

Go with your heart and desire, enjoy the process, and all will be ok. Be creative, be artistic! 

Wednesday 24 March 2021

Raleigh Twenty Steerer Restrictions and Bottom Bracket

There are two mechanical restrictions on the steerer assembly of the Raleigh Twenty, here, a BSA 20. 

VERTICAL RESTRICTION

As promised in an earlier post, here's a photo underneath the steerer, looking between the front forks: 

You can see the wire wrapped around the main brake bolt. The wire also attaches to the stem:


The wire could be copper or some kind of bronze. Here's a close up of wire twisted up around a pin in the stem:

The wire's function is to prevent the stem from being completely pulled out of the steerer tube. At the top of the first photo at the start of this blog post, you can see the bent plate chromed bracket on the brake bolt, sitting snug against the front of the forks. 

ROTATIONAL RESTRICTION

Here is another view of that bracket, this time from above:

If you don't know what the bracket's for, then you may think it to be some kind of "English decorative curio", or a basket attachment! But I hope this picture helps you to understand the function of the odd shaped bracket. As the handlebars are turned, the bracket "folded hands" hits the metal welded C shape plate behind the head tube. So, the steerer stop bracket and that welded C shape plate on the back of the headtube together provide a mechanical restriction to the range of movement of the forks. 

I believe that both of these steerer restrictions were intended as safety features, but I'm not certain of that.

CRANK REMOVAL & BOTTOM BRACKET SERVICE

I also took off the cranks for servicing the bottom bracket. The non-drive side cotter pin came off easily. But the drive side one was stuck like a pig. Removing a seized cotter pin has got to be my most unfavourite bike mechanic job! I had to drill it out, and it was a real struggle. Here is the first pilot hole: 

You've got to use something as cutting fluid (I used 3in1 oil). I then followed up with wider diameter drills and finally after much hammer dynamics, got the *#*£$@! out (one day later!). 

And I finish with some photos of the BB shell, axle and cups, apart and reassembled. The axle is 14.2cm long, and measures about 6cm between cones. There are 11 balls of 1/4" on each side. It's clear that this bike was not much used, which makes it a great candidate for a clean up and service. Restoration using as many of the original parts as possible.





I think the drive side cup is welded in - in any case, I didn't bother trying to remove it. Now I just need to find some new cotter pins, which as far as I can tell are 3/8" in diameter. Whether or not it's considered right, I WILL use some copper anti-seize when I fit them. 

Wednesday 17 March 2021

Servicing a Raleigh Twenty 20 Headset: Nylon Bushing, Crazy Design?!

The headset arrangement on a Raleigh 20 is a little bonkers in my view. The bottom part is a conventional ball bearing race, and really quite good. The top half is the bottom half's Frankenstein brother. In this sequence of photos I'll show you details, as I open up this BSA 20 for inspection, cleaning and lubrication. (For replacing the top part, see this previous post). Here's the front view:

Now remember that the stem has restricted vertical movement in the steerer, because of a wire loop tie inside at its foot. I don't have a photo of that here, but when I get the wheels and mudguard off next, I'll try to take some pictures. For now, note that the stem can be lifted up a little, but cannot be taken out. Below is a pic of the top part of the headset. From the top: stem, top lock nut, light bracket, second lock nut (hidden by the light bracket), stem-steerer clamp, and a metal top cap:

So, straight away you can see that the clamp squashes between the lock nuts above it and the head tube bearing below it. This is a less than ideal situation for good bearing preload. Let's open up from the top:

With the nut off and light bracket lifted, you can see the second lock nut properly. Unscrew that second lock nut and raise the parts: 

I've taken off the clamp lever in the photo above. Note that the bolt has a square flange and can be removed to allow the clamp to lift up easily over the threads. You can see the metal top cap has indentations on its lid. That's what I mean by not ideal for bearing preload - the clamp interferes with the even downward force of the lock nuts. And beneath, you can see the top edge of the infamous nylon bushing. How does the clamp join the stem to the steerer tube I hear you ask? Well, because of this cut out


You can see how the clamp edges push on the sides of the T shaped cut to press the steerer on to the stem tube. Obviously, the designer was trying to deal with how to raise and lower a stem without having to deal with expander bolts as in a regular quill stem. It just about works, but I would not describe it as an elegant solution! This time, I was not replacing the top bearing, merely inspecting, cleaning and lubricating. I used a drop of thick gearbox oil around the inside of the nylon bushing to help the steerer tube rotate inside it. Don't put too much in there, because you need the stem to clamp to the steerer and excess lube might mess that up.

Finally, I serviced the bottom race, which is fiddly without taking the stem out, but can be done. Just make sure you have a sheet on the floor to catch any loose ball bearings when you first lift it up. When I did that, the ball race was dry, with a bit of hard stuck grime on the race that needed to be removed. Below, is a photo of the bottom bearing opened up, the 25 balls of 5/32" removed, cleaned, greased up ready for the shiny balls to be placed on the lubed cup. 

The bottom cup is pretty chunky as you can see, and merely sits on the fork crown. In this example it was not a tight friction fit, as compared to a regular crown race on a typical fork. 

In a previous post (search on Raleigh Twenty Project) I showed some pictures of the headset replacement that I did on a blue Triumph Trafficmaster 20.  Although I kept good photos of the nylon bushing and bottom race, I didn't make a thorough a photo record of how I fitted the 1" threadless top bearing. So when I do the next one, I'll take more photos of how to get rid of that nylon bushing and replace it with proper bearings.

This time, though, I was only inspecting, cleaning and lubing. It was enough to improve the steering of this particular "shopper bike". While it's better than before, I know it can be improved a lot more, but that would require this stem to be untied from its base, chucking the clamp, fitting a new quill stem, which probably means new handlebars, etc. By the way, another approach is to completely replace the forks and headset (the head tube diameter is relatively conventional traditional size). 

However, my plan for this bike is not really modernisation, but rather rejuvenation with judicious restoration. Which is what working on this cycle and riding it gives me a bit of!

Sunday 19 January 2014

Argon 18 E-80 Build Log: Part 1

New project a real TT bike. Here are the first photos:
It's a 2009 frame, interesting because the central trapezium is alloy tubing, but the rear triangle is carbon. So there is a carbon-alloy bond all down the seat tube (like the old Mercury) although it's been tastefully painted over:

Here is a piccie of the old Argon 18 Mercury, showing the carbon-alloy join, for comparison:

The headset is a FSA IS-2 (a standard integrated type). No major news there, except that I'm now wondering whether I've cut the steerer too short. Now that'd be a schoolboy error, if ever I saw one!
Let's see. More to come soon.

Friday 9 March 2012

Are integrated headsets inferior?

I don't think so. I'm talking here of fully integrated headsets, where the bearings drop directly into the head tube with no pressed cups to sit in.

In 2002, Chris King published an article called Integrated Headsets Explained which vigorously attacked these kinds of headsets. In his view, they were a flawed design. Note however, that his firm were not producing any, so a cynic might say that he was attacking a competing product type. There was a hot debate about them in the years that followed, for example here. Many took Chris King's side and I can understand that, because his products are lovely and he clearly knows a thing or two about headsets. However, many did not agree with him. At that time, I stayed on the fence, not really knowing who to believe, but more importantly, looking for evidence supporting either side's arguments.

Since then, I've used integrated headsets a lot. After riding them for some years, I've no issues to report. On the contrary, the ease of fitting, smooth running replaceable angular contact bearings, and the clean finish are all superb benefits. Indeed, nowadays, many top notch frames are designed to take them, Colnago, Hope, Cane Creek, FSA, Ritchey and other great bike brands make them.
Most importantly to me, I haven't found any evidence that proves Chris King's allegations against the integrated headset design. In my opinion, for any kind of headset, what really matters, is how well it is fitted, adjusted and maintained.

Wednesday 29 February 2012

Cutting a steerer tube

Before and after photos of the steerer on my Iceni TT bike. It was too long, but I wanted to leave some spacers above the stem, in case the bike ever is converted back to a road bike. Before:
 After. Now that's much safer!
After removing the required number of spacers, I scored the steerer tube. Then put the pipe cutter in place, 3mm below the scored line. 


 Had to remove the stem in order to be able to rotate the pipe cutter.

Took the fork out (carefully placing the headset parts on a sheet, so as to not lose their order). Then, knock in a new star fangled nut. I use an old screwdriver in the hole, but there are great dies for it. Also, when hammering it, I support the fork in my hand under the crown. That way, you are not risking hammering when the forks are braced against the ground!

 I love this top cap. I had a Ritchey one before, but this looks way cooler. I'll need that when I'm sweating on top of it during my next TT!

Thursday 15 December 2011

How to service a bicycle

I'm about to sort out the Concept Excelsior hybrid bike, which let me gloat again, I bought for only £15 (see my previous post on that). I thought it may be useful to jot down a checklist of things to do. Now, there's no real need to do these all at once. Actually, I see this exercise as a fact finding mission, so as to understand every part of the bike. I then prioritise the areas to service first. In this particular case, I do not want the bike to look pretty, as it's going to be used for commuting and parked in various locations in town. So with that background, here's the full list:
  1. Frame - external: Inspect it all over, look for cracks, dents, corrosion, twists, bends, any defects really. Special care around the fork areas. It may be convenient to do this while washing the bike with a sponge and soapy water. Do ensure that it's rinsed well with clean water though, as most soaps contain salt that encourages corrosion. At worst, you may have to get something welded if steel, or end up chucking the frame because of a previously unseen crack.
  2. Frame - internal: Look inside, where ever possible - down seat tube, look at drain holes in the forks and stays, inside the head tube. When bike is completely dry, spray frame saver inside, or at least Waxoyl. Remove bottle cage bolts to get the spray tube into the down tube.
  3. Saddle and seatpost: Is the saddle tatty, comfortable, or hurty? Loosen the seat post bolt, take the post out. Hopefully, that will be easy, but sometimes it's jammed. In which case, spray some WD40 or Plus Gas around the top of the seat tube, allow to penetrate, then try again. Once out, clean the inside of the seat tube with a rag using a stick as a ram rod. Clean and grease the seat post, bolts and nuts, apply a bit of grease inside the top of the seat tube too, then re-assemble and adjust to the right height and angles. In a year's time, you'll be thankful you did this!
  4. Steering: For a quill stem, do as for the seat post, ensuring especially that you grease the long bolt. I also grease the faces of the stem and the expander wedge where they slide together and very sparingly around the post and in the tube. The idea is that it should not jam later, when you want to remove it, but also, should not slip when you tighten it up. For Aheadset type systems, you need to check that the bolts at both ends of the stem are tight - but rather than stripping them by overtightening, it's probably much better to loosen them all, grease and then tighten up. The bars should turn fully and freely in each direction.
  5. Headset: May well be fine. Stand over the top tube, bend over the handlebars, put the front brake on, and rock back and forth, with your weight on the bars, checking carefully for play in either top or bottom bearing. Turn and feel for roughness. It may be easy and perfectly sufficient to wind the lock rings up a few turns, squeeze some grease into top and bottom bearings and tighten it all up. A more thorough service may be fairly easy - dismantle it, clean, grease and rebuild, and you may have to change the ball bearings or races. It's up to you! At worst, you have to change the headset, which can be a pain if you can't seat the crown race or top and bottom cups easily, but in that event, your LBS should be able to help you out if it needs a full replacement.
  6. Wheels: Loose, or much worse, broken spokes should be sorted out sooner rather than later. Check condition of the rims - how worn are they, how much life is left in them? Never risk running rims that are wearing out - look for wear lines or other indicators. Examine the hubs carefully, especially around the spoke holes. Any cracks or signs of imminent breakage? Are the bearings ok? Waggle the wheels - is there any play in the hub bearings? Again, you may need to strip and rebuild, but a quick tighten up of the axle nuts may be enough for now, the full service not being urgent. Next time you get the tyres off, check the rim tape and the spoke heads too. It may be worth oiling them, to make tension adjustments easier in future. Is it too obvious to say that you must check that the wheels are firmly fixed to the forks?! Track nuts, quick releases, whatever. Grease and lube wherever you see fit!
  7. Tyres: Check for cracks, splits, holes and general wear and tear. Nowadays, I tend to make a washer out of an old inner tube, and put that on the valve before fitting it in the tyre. This stops the edges of the valve hole in the rim cutting into the valve base. But these things can wait until the next time you take the tyres off.
  8. Brakes: Very important area this. Pads must have some decent thickness to them. Old pads can be revived with a file, or just rub the face on a cement floor or brick side. Need to get any bits of metal that may be embedded in them out! Oil everything that has a pivot - including the brake levers. I also oil cable entry points. Adjusting angle of the pads and ensuring that they move uniformly and hit the rims evenly can take time, especially with cantilevers, but it's well worth it. Toe in if you have to eliminate squealing. I use a bit of card at the back of the pad while tightening it up.
  9. Pedals: Ensure they spin freely and aren't mangled up. Angle them and try to dribble some oil in the bearings. Do they suit your shoes!?
  10. Bottom bracket: Grab hold of the crank arms and wobble them, holding the frame still. Do it while riding the bike too, with your feet on the pedals. Examine rings and cups to check they are tight. At best, it'll be fine, especially if it's a cartridge type. If not, either change the cartridge or service the axle and bearings.
  11. Chainset: Clean, inspect the teeth for wear. Are rings bolted on securely? Check the cranks for cracks, especially around the pedal axle area. Are the cranks well secured to the bottom bracket axle? It's worth releasing them, cleaning, and re-fitting them securely. This will stop you cursing later when you want to get them off but can't.
  12. Chain: Clean, inspect, lubricate (see my earlier post for full details).
  13. Front and rear mechs: Clean and oil, ensure they move back and forth smoothly. It's very important to ensure that the L and H settings are adjusted properly, for safety. Otherwise the chain can come off and jam somewhere, causing injury possibly.
  14. Shifters: Clean, and lubricate, but with care! Putting oil in the wrong places on some shifters can cause problems - e.g. slipping. Seek expert help for tricky things like STIs or Ergos. Check condition of cables, replace if necessary, and lube or grease cables at entry points. An easy one is the under bottom bracket cable guide - clean it and oil it.
  15. Freewheel/Cassette: Remove debris, clean up, inspect for wear. Are teeth worn down or fresh looking? Try to lubricate freewheels with a good quality oil - need to exercise some gymnastics to make it dribble around inside to get to the moving parts.
  16. Make notes: I think this is worth doing, and easy as you go over the above items. Frame number, dimensions, gear teeth numbers, all useful information that you may need to refer to later. A few years ago, I started to log my maintenance work in a spreadsheet document on a pc. I've found it more useful than expected - like informing me as to spoke breakages on a particular wheel, and creaking noises - information that gave me clues about other matters that needed to be fixed. 

Friday 7 October 2011

Cyclocross bike build: Graham Weigh Frame

Last year I tried cyclocross for the first time. I adapted my wife's hybrid for that, but she wants her bike back (iow, I want a real CX bike!) so I decided to build one up for this year. Below, the frame and forks. Graham Weigh 60cm alloy, which seems to be very similar to a Dolan cross frame. Kinesis Crosslight alloy forks. I was a bit worried about harshness of ride, but we'll see.
Below are the headset parts. It'a an Alpina integrated, I realise all the hullaballoo about integrated headsets versus external bearing ones, but as the frame is designed for this kind of headset, I thought I'd give it a go. It assembles, from bottoms up: crown race (silver ring), lower bearing (which drops straight into the bottom housing of the head tube), upper bearing (identical to the lower one and drops into the top head tube bearing housing), red compression ring, silver washer, top cover (black alloy, it has an o-ring inside it, and the black rubber washer/gasket goes under it), cap and star-fangled nut.

Below, a close up of the top bearing housing in the head tube, and the mount for the crown race. It's all incredibly simple and quick to assemble, dead easy I'd say.
Bumble-bee style headset spacer arrangement. Actually, I didn't want to chop the steerer, so decided to leave it full size for now. Hmm, that's a good name for the bike: BUMBLE-BEE, because I'll be bumbling about on it!
A little while later, Bumble-Bee is finished:
The wheels are Shimano 105 hubs on Mavic Bog Standard rims (32h MA3). Below, a cheepo Vitus saddle. That'll do for now, but I WILL experiment later - for the sake of my behind! One day I'll get the hang of those flying remounts... Maxxis Raze 700x35 tyres (wired). Not the best, but hey, neither is the engine!
Rear derailleur is a Sora. It's a really nice changer in my view, works very crisply with the Tiagra shifters.
Rear view of Tektro CR720 cantilever brakes. So much nicer than my old touring bike (which I sold a long time ago). The cable hanger is part of the seat clamp (Alpina). You can see that the cable is not perfectly straight and vertical, so there's room for improvement here.
Front view of Bumble-Bee below, showing the Tiagra shifters mounted on 44cm (c-c) Ritchey Comp bars. I found the shifters surprisingly easy to rig up and cable.
Close up of the front brakes below. Initially, I had the Mother of all Judders. This was easily rectified by a few mins with an allen key and a bit of card, getting the blocks nicely lined up to the rim, and with a slight toe in.
Bottom Bracket is a Shimano UN54 square taper. Cheap, reliable and simple. Front changer Sora triple, working a Stronglight 46-36-26 chainset. Although rated for a bigger road chainwheel, I encountered no problems at all encouraging it to work for the three MTB size rings here. Bottom gear is an amazing 26T front-27T rear! Now that's 26 inches! If I'm gonna have granny gears, then I may as well have ridiculously low ones. Yeah, I'm unlikely to use them in racing, but may do so if I take Bumble-Bee touring later.
Final photo below showing off Bumble-Bee's backside. Is that a sting in her tail?
All in all, I'm very pleased. She handles really well on grass and compared to the old hybrid, I'm loving the riding position, and no qualms at all about the alloy forks - they're great. Having only ever ridden cross with straight handlebars, I was worried about the change to drop bars. Would they give me enough steering control for tight corners? In practice, the 90mm stem and 44cm bars turned out to be absolutely fine. Indeed, I prefer the drop handlebars.

Tuesday 3 August 2010

Renovating a Raleigh Twenty: Part 6 - Headset, nylon bush & handlebars

The infamous nylon headset bushing. (For a general description of the headset and a quick service, see this post). Instead of a top race, this is what the Raleigh Twenty uses for a bearing at the top of the head tube. The bottom end has ball bearings - there are photos of that below.
This is the rear view of the nylon bushing. Note the cutout in the steerer tube that allows the steerer clamp to grip the stem. (Photos of the original headset configuration are here). Here, the nylon bushing is being taken out. It's all really very curious. I wonder why Raleigh did it that way?
View of the cup at the other bottom end of the headtube. All greased and ready to be assembled.
New balls please! This is a photo of the balls on the crown race, all greased and ready for assembly. They are new shiny ones, 25 of 5/32" size.
I'm going to use the top half of this Madison M:Part Sport threadless headset. That will replace the nylon bushing at the top of the head tube. At the bottom of the head tube, I'll leave the original cup and bearing arrangement, because it's absolutely fine.
Just one spacer above the bearing cap, then the original lock nuts, turned carefully to apply the right amount of pressure - so that the forks rotate freely with no tightness or binding, and no play in the headset either.
Here goes the new stem. It's an alloy quill with an adjustable alloy stem with three bolt handlebar clamp. Madison M:part again. Titec Hell Bent alloy bars, with a small rise.
The bars were too wide, so I had to saw the ends off (to ~56cm total width). Simply filed the ends off after cutting with a junior hacksaw.
Ta Da! The bike, now even more transformed to the 21st century. The difference that the headset makes to the ride quality is amazing. It's now really responsive, but at the same time stable. I can ride hands off. Previously, you had to apply positive force to the bars to turn. Now you can "think" and lean the turns, just like a "proper" bike! In fact, it feels MUCH better to ride now than my commuting Dahon Speed D7 folder. The Triumph Twenty is a small bike with a big bike's personality!
View from the driving seat. Tioga Power Stud bar ends, give a welcome change in hand position. Trigger shifter is in easy thumb and index finger reach (as is the bell!). Swanky new, but oh so cheap, brake levers. Brakes are really good now, even the back one is not bad, despite the original sidepull caliper and pads. They will improve further when I replace the steel rim with an alloy one.
Looking good. The main work left now is to replace the rear steel rim with an alloy one, just like the front wheel. I'm still musing over the mudguards. Should they stay or should they go?
Proudly sporting the Triumph head badge. Actually, that is the main reason that I didn't want to send it off for re-spraying or powder coating. I couldn't figure out how to take off the head badge without damaging it. It seems to be riveted in place (three rivets I think). Awkard to reach the back of the rivets inside the head tube.
Very satisfying to reach this far, with no hitches along the way. She really is a lovely bike to ride now.
UPDATE: 22 September 2010
Days after the above blog post, she moved to a different town to be used as a commuter by a student cousin of mine. So I won't get a chance to replace that rear steel rim for a while. Meanwhile, my 8 year old son has implored me to buy another one and to keep the old steel bars (because they were "cool" and "retro" - he's EIGHT for goodness' sake!). By all accounts, in virtually daily use, she has been completely reliable thus far.