The Dream Carb O-ring Dilemma

 When it comes to the CA72-77 Honda Dream carburetors, Honda has perpetuated an error in the size and part number of the flange in their parts books and online part listings.

I have what appeared to be a nearly new Dream carburetor on hand, but the flange o-ring needed replacing. Normally, this isn’t a big deal, however when you look up the part number for the o-ring, you get a 16173-259-004 (Keihin) part number, listed in the 1968 US parts book as a 31mm part. Looking up the part number online gives a 24x2.4 size instead.

Most of Honda’s o-rings of that type are 2.4mm thickness. When I ordered that part number from an eBay seller, which came with the original parts tag, it was woefully too small at 24x2.4. Nosing around the internet, I found 91307-958-003 31.7x2.4 o-ring that is pretty close to what is needed. That part is listed for an ATC185, but searching the part number comes up empty now. 91306-MA6-005,

91305-KRM-840, 91305-KYY-900 all come up now as 31.7x2.4 o-rings currently, when you search by the o-ring size. Also, in the search by size, 09280-32006 came up as a Suzuki part number.

Measuring the o-ring channel on the carburetor, gave a measurement closer to 32mm and perhaps 2.7 width. For $12.76 I found I could order 10 o-rings in a 32x2.4 size from China, but obviously there is a delay in getting them, rather than buying from eBay sellers or Honda dealers.

So, I have ordered a few versions and we’ll see which ones are the best fit, in the end. DO NOT order by what is listed in the parts books and online parts microfiche!

Bill Silver

aka MrHonda

www.vintagehonda.com

The “Fix” for the Honda CB200T headlight-starter switch

The problem: In 1975, DOT ruled that all street bikes must have Always ON headlights.

The function inside the switch was a hot 6/12volt wire from the ignition switch that toggled between the headlight ON function and the electric starter function.

Sadly, the first-generation starter switches were made with a plastic switch case, which failed, probably due to the heat created by the full-time voltage passing through the tiny contacts.

Normally, previous starter solenoids were fed voltage from the ignition switch circuit that used the grounding of the primary windings through the starter switch to complete the energizing of the solenoid. With the 1975-on edict, the solenoid had to ground the primary side of the windings first, then applied the voltage back through the starter button switch.

Early:

BAT-IGN SW-Starter solenoid primary windings and grounded at the starter button contact, grounded to the handlebars

Late: BAT-IN SW-Starter solenoid primary winding which was grounded at the solenoid mount and then voltage was sent through the harness to the central starter switch contact which completed the circuit with voltage fed to the starter switch contact.

The starter solenoid has a 4-wire connection. The large terminals connect the starter and the battery together when the magnetic solenoid plunger is activated by the completion of the primary wires to B+ and ground. The primary windings don’t care which ones are connected to power and ground. On the CB200T solenoid, the short green wire is grounded by a bolt near the solenoid mount.

On pre-1975 bikes, the yellow/red wire normally goes to the handlebar switch and the lead is grounded to the handlebars when the starter button is pushed inwards.

                                                                    

                                                                CB175K3 starter switch, modified 

On later models, the handlebar wire is energized through the voltage in the central starter switch contact when the button is pushed inwards. The solenoid primary is grounded through a green extension lead, which has an eyelet on the end. The green wire is then bolted to the chassis.

Currently, the worldwide supply of model-specific CB200T/CL200T starter switches is down to the extent that any that are listed on the internet have asking prices of $250-300+

                                                   OEM CB200T starter switch 35150-389-671

Solution:

I figured that a late CB175K3 handlebar switch would do the same functions, but without the KILL switch function. The CB175 switch needs to be modified by drilling the threads out where the cable adjuster would normally sit with a 5/16” drill bit. You have to be careful not to drill all the threads out, but leave about ¼ of the threads intact to function as a stop for the non-adjustable disk brake cable end.

To access the wiring harnesses I removed the handlebar clamps and rolled the handlebars backwards onto a thick towel placed on top of the fuel tank. This gives access to the wiring harness leads.

I used a thin piece of wire to wrap around the ends of the old switch as it was withdrawn from the handlebar tubing holes. The wire was then attached to the new switch harness and pulled back through the handlebar holes and out towards the hole at the back side of the headlight shell. The throttle cable as attached and the throttle wire connected to the throttle drum. The CB175 switch has the same locating pin inside the housing to index with the locating hole in the handlebar. The two halves are joined with the two screws to lock the switch in place.

The brake cable is installed next into the switch housing and the brake switch and lever installed. The handlebars are rolled back up to where the index punch marks are even with the split in the handlebar mounts and everything is tightened back down again.

With the switch harness ends tucked back into the headlight shell, the wiring connectors must be color matched to the harness leads. The stock left hand switch had the Hi-Lo functions which are no longer needed. The excess wire ends can be cut off or tucked into the wiring bundle. The Yellow/Red wire from the handlebar switch connects to the matching Yellow/Red wire connector from the main harness. Now the wire is going to ground inside the starter switch, instead of going to B+ voltage. The solenoid green primary wire is removed from the ground bolt and attached to the positive side of the battery.

The handlebar switch leads have to connect back to the harness with the yellow and yellow/white wires connected to the harness connectors. The black/white junction has a male pigtail end that connects to the black power junction. The white, blue and green ground leads from the switch connect to the headight bulb connections. The high beam has two blue wire connections to make the high beam function and to illuminate the high beam indicator light located in the top of the headlight shell. Be sure to connect the front brake light switch leads into the matching connectors inside the headlight shell.

It never hurts to keep a few spare fuses handy, in case some incorrect wiring connections are made. I lucked out and when the key was turned on I had a nice bright green neutral light and functioning front brake light switch. Turning the new handlebar light switch ON to Lo and Hi gave me lights in both positions. Tapping the starter button with the bike in neutral gave a quick click and then the starter engaged as normal.

So, the only cost was the OEM CB175 handlebar switch and an hour or two to install it and make all the wire connections match up. I saved at least $200-250 from avoiding the “proper” CB200T starter switch which had a current retail price of $205, although they are NLA from the usual vintage bike parts sources. If you are faced with a defective starter switch, this is one option that can work for you.

Bill Silver aka MrHonda.

www.vintagehonda.com

The Upside of Falling Down…

In my 60 years of riding motorcycles, I have had four serious crashes, any of which might have taken me out permanently. But for the grace of God or whoever pulls our strings in this life existence, I have survived them all to date.

1. Riding a troublesome CB450 in downtown San Diego, a college student pulled out from a parking spot and did a U-turn in front of me. I hit the left rear quarter panel and the bike and I hit the ground very hard. I tried to get back up, but noticed that my right foot was at a very unusual angle to the rest of my leg, so I just stayed down until help arrived. The end result was a compound-fractured tibia and broken femur. The femur was stabilized with a long steel rod and the tibia was secured in a full-length leg cast. The steel rod was removed a couple of years later.

2. The BIG ONE. Winding down the end of a 6-hr. endurance race at Ontario Motor Speedway, I rear-ended another bike which had slowed suddenly and drifted down in my path, just as I was looking at a pit sign saying that there were 20 minutes left to go. That crash red-flagged the race and I got a helicopter ride to Loma Linda Hospital. My right arm was broken in three places, The upper humerous bone was broken in two spots, which were secured by two long screws in the upper break and a plate and screws for the lower break. The ulna bone was broken just below the wrist. Due to a nearby open wound, the doctors delayed surgery until the wound healed up. In 3 weeks, the follow-up x-rays showed the bone moving back to where it belonged and was fusing rapidly. Doctors said to just leave it in the cast and it healed all on its own. That crash ended my racing hobby, but I fixed the race bike and swapped it for a CBX 6-cylinder super bike.

3. Having met a woman at a nightclub on NYE in 1982, I offered to take her for a motorcycle ride on NYD. I was unaware that the recent storms left black ice on the roads leading to the town Julian. As I followed a slow-moving car, it pulled off to the side of the road and I veered towards the centerline, shifted down a gear and applied power. The rear end fishtailed wildly and the bike started to go down on the left side. I instinctively tried to outrigger the bike with my extended left leg, but the black ice prevented any kind of countermeasure and we went down, sliding across the roadway into the path of oncoming cars. When I tried to stand up, my left knee collapsed. Passersby, including a nurse, helped me to the side of the road and someone found a long branch and some rags to stabilize my leg. My shaken passenger was uninjured apart from a hole worn in her boot. A CHP car came by and loaded me up into the back seat, tben took me up to the Ranger station where we contacted my passenger’s brother who drove his truck up, loaded up the KZ550 and both of us, then took me to the hospital and left the bike at my house. The diagnosis was a torn ACL and PCL ligament. Surgery followed with the ligaments reattached and my leg back into a full-length leg cast. I sold the bike, while still in a cast. The only real damage was a scuffed dyno cover, which I replaced.

4. The “last” one. In mid-March of 2025 I was riding with my Jamuligan friends, returning from a nice breakfast at the local casino. As we returned towards home, I was second in line of the four of us, riding down the two-late road in Harbison Canyon. George was leading the pack and I was second in line, with two more a ways behind me. As I was descending down the canyon, I reacted to the sight of an ugly Nissan car which had intruded into the oncoming lane and appeared to be heading straight for my front wheel. I instinctively grabbed a big handful of front brake and the wheel locked up, low-siding the bike and me down the road at about 45 mph. It was an instant of earth-sky-earth and the bike and I slid to a stop in the roadway. My two riding buddies, who were trailing behind me about 100 yards back, arrived at the scene of me and the bike lying on the ground, with no signs of the car that triggered my response. I was down for the count and my friends, plus some local neighbors all came to my rescue. My friend Steve called 911 and the local fire department arrived within minutes.

Steve and Keith both wrestled my bike upright and off to the side of the road, as I was being attended to. The bike’s seat had been torn off the bike, the shift lever was bent downwards, and the foot of the centerstand was folded inwards. Both of the handlebar levers were broken, and the quarter fairing had a large scuff mark on the left side.

I was up, sitting on a cement wall, trying to sort out what had just occurred. The EMTs got me onto a gurney and loaded up into the ambulance for a trip to the Trauma department at Sharps Hospital, about 20 miles away. I had slipped into shock, so I just tried to keep quiet with my eyes closed during the bumpy ride and was transferred to the hospital trauma department. They gave me a CAT scan from head to foot and discovered that my right thumb was broken, but nothing else was damaged to any degree. My brother was called to come down from Mira Mesa to gather me up and take me home about five hours later.

My thumb was repaired with surgery a week later by use of a plate and a half dozen little screws. During the surgery, my heart rate had spiked to 135 bpm, which is way up from my normal 60bpm. When I came out of surgery and into recovery, the nurse said that she had seen a lot of patients come out of surgery with high bpm rates and then they subsided the next day. Mine followed that pattern, but the cardiology team at the VA was alerted and put me through numerous tests before I was discharged from the hospital. They applied a heart monitor to my left side chest and I was told to keep track of any unusual heart rhythms for a two-week period. I was never aware of any kind of irregular heartbeats during that time, however.

A few days after the heart monitor was returned to the lab, I got a distressing message from my primary care doctor:

Patient had a min HR of 49 bpm, max HR of 211 bpm, and avg HR of 73 bpm.

Predominant underlying rhythm was Sinus Rhythm. 2 NSVT runs occurred, the run

with the fastest interval lasting 6 beats with a max rate of 169 bpm, the

longest lasting 14 beats with an avg rate of 119 bpm. Atrial Flutter occurred

(<1% burden), ranging from 82-211 bpm (avg of 131 bpm), the longest lasting 1

hour 25 mins with an avg rate of 138 bpm. Isolated SVEs were rare (<1.0%),

These are not good numbers for the long-lived human being….

I was never aware of anything unusual in my heart rate at all. My previous checkups and even some EKG tests were inconclusive until this accident. A prescription of Metoprolol is forthcoming and I will have some follow-up appointments with the Cardiology department. I don’t know how long this has been going on, but it appears that the unforeseen benefit from crashing my beloved Hawk GT650 is that I may have a few more years of health and well-being. I hadn’t planned on an early check-out, but this gives me some confidence that my heart problems will be contained and monitored into the future. I guess you can call it an extended warranty event.

With gratitude, even from crashing my bike…

Bill Silver aka MrHonda

www.vintagehonda.com

Cleaning the Garage….

Due to a recent accident, my right thumb is out of commission for about 2 months. Plan A could be wait until I am able to be functional enough to complete them all or Plan B is to move them all out as-is with most of the parts ready to make them all functional again. Thanks to local friends and enthusiasts, two bikes have been sold already. 

Project 1

JDM Honda red S90 from around 1965. Li-on battery, some engine work done, Mikuni carb, factory winkers, speed and headlight shell replaced. The front wheel was very rusty, unlike the rear wheel. I bought a good used front wheel assembly and a set of new tires for the bike. New carb-to air cleaner tube. Runs great, but the clutch is stuck. I have all the repair parts on hand for the clutch repair. $1800. Bill of Sale only           SOLD

Project 2

1975 CB200T with 5300 miles and original mufflers still installed. Engine top end rebuilt, carbs rebuilt, rusty front rim replaced with new rim and spokes. New tires, new cables, new starter switch on order, due soon. $2000 with current CA title. WAITING FOR PARTS

Project 3

1975 CB400F. 8400 miles, was stored since 1984. Carbs removed for cleaning, kits provided, new battery, new complete front brake system, new tires, fuel tank sealed up, new handlebars replacement right side cover, and switches, new instrument cushions, $1000 worth of new parts ready to install. $2200 new CA title                 SOLD

Project 4

1991 Honda NT650 Hawk GT. At first, I thought I would have to just sell the wounded Hawk for cheap money, but after a closer look, it looks like an easier fix than I thought. The seat cowl had a crack and a broken grommet tip, so that went to my ace painter, Jerry, for repairs and some fresh paint. I found a good used center stand on eBay, but will need some help installing that one. The custom Corbin seat is being replaced by the original mint stock seat, which came with the bike when it was purchased. Some turn signals need replacing. I found what might be the last NOS shift pedal in Puerto Rico! The broken aftermarket brake and clutch levers were replaced with the stock take-off levers. The little ¼ fairing took almost all of the big hit, saving the instruments. It’s a goner, so the bike will revert to “naked” status again, as it was from the factory. The handlebar ends were torn off, but some copies were secured. I might have to replace the left handlebar, as the end was pretty ground off. So, the Hawk comes off the market. I won’t have full use of the right thumb until the end of May, so there is no big hurry on the repairs.

Bill “MrHonda” Silver

www.vintagehonda.com

04/2025

MrHonda gets strafed by a Black Bomber

What goes around sometimes comes back to me. I had a history with this CB450K0 Black Bomber dating back in 2022, when the then-owner brought it to me to get running after it sat for years. Something came loose inside the generator and damaged the stator and rotor. The carbs were all gummy, the spark advancer springs were loose, the battery was dead and the oil pump mod needed to be done. I got it running well, but the later reports were that one of the carb bowl gaskets was leaking. I stopped by to have a look at it about a year ago and asked them to order a new gasket and I would re-install it.

No word until this week 1/15/2024, when the new owner, who was the housemate of the original owner called to ask me how much these bikes were worth. He was suffering the aftereffects of some kind of accident (not on the bike) and needed hip surgery. He was out of work so needed some ready cash ASAP. He offered the bike at a below-market price, considering what was going to be needed again to get the bike up and running, so I bought it, picked it up and brought it home for a re-acquaintance review.

The Motobatt battery, which was $91 in 2022 had 5 volts remaining. The gasoline was stinky and somewhat tainted by the RedCote sealer that had been installed previously. I removed the air filters, battery and carburetors for some cleaning and getting it ready for coming back to life again.

When I opened up the carbs, one already had a sinking float, so that probably was adding to the leaking float bowl gasket problem. The old gas hadn’t congealed too badly and they came out clean after a visit to the ultrasonic cleaner. I had tried to drain the fuel tank through one of the petcock fittings with a long hose attached, but nothing came out in the Reserve position. Silly me, with the tank half off the bike, decided to unscrew the petcock from the tank, and out came a gallon of stinky old gasoline all over me and the bike.

The petcock feed holes were all blocked up, due to disintegration of the 4-hole gasket, the little nylon filter on the reserve fitting was ripped open and the main brass fuel tube had split down the middle. So, a replacement petcock and some carb floats were ordered from 4into.com which were shipped out the next day. In the meantime, I decided to try to repair the float using a heat gun to heat up the gasoline inside enough to show me where the pinhole leak was located. Apparently, the floats were aftermarket parts and the solder joint was not completely fuel-proof. I heated the float up with a heat gun, but suddenly it went POP and separated on the bench. You could see the high water mark inside the float lobe cavity where gasoline had made an ingress inside the part. I fiddled with it for a half hour, cleaning the solder off the edges of the two halves, and tried to re-solder the pieces together. It got kind of covered with lead blobs, so probably weighs a bit more than the other site. While waiting for the new parts, I thought that maybe the repairs would be good enough to get the bike up and running again.

The bike came with 4 sets of OEM carb repair kits, a new camchain with a master link, A brand new factory wiring harness, the owner’s manual, a photocopy of the parts and service manual and a set of brand new OEM tank badges! Sometimes you just get lucky.

With the temporarily-repaired float installed, I tried to fire up the bike, but the starter clutch was skipping badly. I removed the left covers and pulled the rotor out, only to find that one of the roller spring caps was jammed into the starter clutch spring holes. I had to remove the starter clutch to pull out the spring and cap. I had a set of the standard springs for the 250-305s and installed fresh ones after checking that the caps wouldn’t get caught up again. With the spark plugs out, the starter clutch seemed to work fine, but after it was all back together again, the clutch would skip intermittently. 

The rotor was marked K5 and there seemed to be some part number changes for the Bombers, but more importantly, the springs had a 283 code part number instead of the 253 springs. I rush-ordered the correct springs. In the meantime, I determined that the carb jetting was incorrect, with #130 main jets and #38 idle jets installed instead of the specified #125 and #35 jet sets. I was able to get #125 main jets from 4into1.com but the idle jets seemed to be NLA almost everywhere. I did find some listed at cmsnl.com but they were on some kind of back-order and not available until early Feb. I did receive new floats and the #125 mains, so swapped out all those parts and the bike started up fairly quickly and I was able to run it around the block.

The first test ride was initially a bit troubling, as the bike seemed to jump when I went around the corner. I thought it had a flat tire or something odd, but what turned out to be the cause was that the steering head bearings were notched and the handlebars self-centered when you moved them left of right. I happened to have a set of tapered steering head bearings on hand, so spent a couple of hours taking all of the handlebars and headlight ears, etc loose, then driving out the old races and driving in the new ones on a bike that was sitting on the centerstand and a small floor jack beneath the forward frame rail junction.

The 283 springs arrived just before I was going to the Mecum auctions in Las Vegas, so I hurriedly checked them out for installation. They were slightly shorter than the 253 springs, but visibly thicker wire gauge. I popped them in and installed the rotor back onto the crankshaft. This time, the spark plugs were still installed and the starter clutch seemed to be pulling the motor over okay. I had checked the compression and both cylinders were showing 175 psi so the starter clutch had its work cut out for it.

After putting all of the covers and bits back together, the starter clutch was pulling the engine over markedly better, but still had a few skips every once in awhile. I noticed that the rotor went onto the starter clutch hub very easily and now wonder if there is a different dimension in the clutch hub.

There were some issues with the speedometer light bulbs being either blown out or in the wrong locations, so that needed some attention. The dimmer switch contacts are a bit corroded, so that switching from Lo to Hi beams is a bit inconsistent. Apart from that, it is pretty much ready to find a new home with a Bomber fan, somewhere.

Bill Silver

aka MrHonda

www.vintagehonda.com

MrHonda’s little shop of horrors….

Factory photo courtesy AHMC  

It started last November, pushing out a CL77, then taking in a CB750 which had been treated to an 836cc kit, but someone forgot to get one of the wrist pin clips all the way in and it ground a groove in one liner. In the background, I was piecing an early CL77 together from misc bits (separate story coming).

Then, there was the return of the blue CL175K3 that caused a lot of headaches in the beginning, then has come back for a mysterious oil leak and poor running conditions. No mechanic wants to have comebacks return the shop, but this came back with intractable problems with the suspension and carburetion.

I had a 1963 CB77 dropped into my lap which had a reported replacement top end due to piston seizures but was never run after re-assembly. That one required pulling the engine again, as the shift drum had rusted the forks in place, due to inactivity for many generations. That one was a pretty nice original bike but needed the usual tires, cables, battery, carb overhaul, tank sealing and various electrical repairs. Thankfully, that one sold to a local enthusiast.

The CB750 had a removable frame section above the engine so I could remove the top end without pulling the 175 lb engine assembly from the frame. The bike was spewing oil out of the #3 cylinder as well as a big leak at the crankshaft seal behind the ignition system. The cylinders had to be shipped to Cycle-Xpress in Wisconsin for liner replacement and boring, plus fitting new pistons to the rest of the cylinders. Slowly it came back together but then the carburetors wouldn’t fit back onto the cylinder head spigots. The chassis was late 1969-early 1970 and the carbs were 1975. After trying to force the carb rack back on with new copies of the manifolds that were on the bike, I discovered that Honda made revised manifolds for 1971-76 bikes. They solved the problem at a cost of $150 for the set.

                                                            Factory photo courtesy AHMC

A KIA camshaft seal has the same dimensions as the OEM crankshaft seal on the 750, but without the ridge that normally holds the seal in the cases. I pried the old one out and installed the new one from the outside. Otherwise, you have to split the cases to install the OEM seal where it registers with a groove in the upper and lower case halves.

There were more problems with just changing the oil and filter. The drain plug washer was missing and the old oil was diluted by some kind of miracle engine fluid that the owner thought might fix the oil pumping out the pipe. The oil filter was missing the flat washer that sits on top of the spring that pushes against the oil filter element. The exhaust system was a fabrication set that had two pipes anchored to the footpeg bolts, but the inner pipes were held to the bike and outer pipes with hose clamps! Then the battery died and I had to push it 6 blocks back home again. It’s just one thing after another, it seems.

The CL77 bike came with the wrong rear wheel and swing arm and missing lots of parts. The old tire on the replacement wheel was a monster 4.00x19 rock hard chunk of rubber. I was able to eventually pry it off and spoon on a new one, but when I fitted the wheel to the bike the wheel locked up when I tightened up the axle nut. I had missed the fact that someone had robbed the hub of the inner wheel bearing and the spacer. I rebuilt the engine, which came with a CB77 cylinder head/tach drive and then discovered that the crankshaft was also from a CB with the oil hole for the starter clutch. There were damaged gears and it needed the full transmission overhaul with replacement bushings. Eventually, it came back to life and sounded pretty good, but still looked a bit tatty.

The CL77 clutch was dismantled during engine repairs and inspected with all parts apparently correct for the engine, but the clutch pull was a 2-handed affair, so was inspected once again and some softer springs fitted, which fixed that issue. There were many problems with the chassis wiring, including a dead headlight bulb and then the tail light needed to be replaced with a different bracket. The fender was painted but not cleared for a good ground path, so more work was needed to remedy that. Finding a front fender for CL72-77s became quite challenging during the process.

The CL175 was reported to have a little oil leak, but the owner had cleaned it off before it came back to me. I had to guess where it might be and reseal the left side cylinder head cover. This bike had been running some aftermarket carburetors as the original ones were fitted with some aftermarket parts that prevented the bike from running properly. The left side was the biggest headache, despite having the carburetors off numerous times for cleaning and inspection. Eventually, I checked the #90 main jets on both carbs and the left side and finally determined that someone had drilled out the jet to about a #105 size, which caused all of the plug fouling. Fitting a proper sized main jet finally fixed that issue.

                                                        Factory photo courtesy AHMC

Then, there was a problem with the front end. When the forks were removed to allow the new headlight ears to be fitted, a bit of slack was noticed at the bottom of the forks, as if the fork springs were too short. I pulled the right side off and wound up fitting a ground down intake valve spring into a short spacer to put pre-load on the fork assembly. The bike had suffered some kind of crash damage that caused the forks to be out of alignment, making refitting of the fork legs difficult. On top of that, the front brake started to cause the front wheel to dive to the right under braking. Inspection showed that the primary shoe was contacting the drum fully, but the secondary shoe was not. The brake plate was checked and the shoes cleaned and synchronized again, but nothing influenced the brake to behave normally. Finally, the bike was sent to a frame shop to check out the frame alignment and perhaps replace the steering stem.

The battery wasn’t charging properly, so the engine continued to run roughly. The OEM style rectifier was replaced with a solid-state unit, which seemed to improve the battery stability and thus the coils were getting 12v on a regular basis. Then, there was a problem with the replacement gas caps not venting properly and the petcock not feeding the carburetors equally.

Diagnosing and repairing these continuing problems takes at toll on your psyche. When you have worked on Honda products for 50 years, but suddenly everything you attempt seems to fail due to some mysterious maladies that are hiding in the background, you begin to doubt your sanity or ability. Obviously, problems such as these eventually have a resolution, sometimes requiring replacement of what seem to be good parts and doing a lot of questioning your mind about what is missing to cure the problem.

At sometime, I will hang up my wrenches, but even though I am 76 years old, my overall health is good, so I will continue to try to sift through the clues and come up with some resolutions that bring the bikes back to something close to what they had experienced after driving off the showroom floor.

It would be great to have an intern or understudy to absorb the experience and information that I have floating around in my head. I have spent many hours helping on various Facebook forums for various models, as well as continuing to supply my restoration guide downloads for the 250-305 series models. Hopefully, what I have shared is taken in as fact in most cases to those who are generations behind me and share with their peers and any upcoming enthusiasts to take the knowledge forward into the future.

Bill Silver aka MrHonda

www.vintagehonda.com 01/19/2025

It’s all in your head… 250-305 cylinder heads.

For mass manufacturing, simplifying the production process yields more products at a cheaper unit price. As Honda ramped up production from the early days of J-Benly, SA/SB-ME-MF singles, their goal was to build a reliable and punchy OHC twin, which was indeed inaugurated in 1957. Honda designers must have decided that making thousands of little valve seats for the cylinder heads could be replaced by a cast-iron cylinder head “skull” which incorporated the combustion chamber, including valve seats along with the spark plug hole. The cast-iron skull was then set into another mold in which was poured molten aluminum, fusing the two dis-similar metals together into a single unit. From there, valve seats could be easily cut and the combustion chamber either left in the 250cc-sized hemispherical shape or the edges were chamfered out to match the step up from the 54mm 250 piston size to 60mm enlargement for the 305cc displacement.

As brilliant as the design was for manufacturing, the heads did have a tendency to have the skulls work loose from the alloy castings, causing oil leaks around the edges of the spark plug holes.

This discussion will revolve around the “wet-sump” 250-305 engines which began production in 1960 and carried on until 1967. The earlier dry-sump engines are in a different class of design and application and are seldom seen in the US. When Honda came to the US in 1959, they offered the CE71 and some various 250-305cc versions of the dry-sump (separate oil tank supply) bikes, but swiftly moved into the newly-designed wet-sump types.

The 250-305 Dreams were introduced in 1960 in the new wet-sump format, followed by the CB72-77 Super Sports in 1961. The range was extended in 1962 with the newly designed CL72 250cc Scrambler.

For the first two years, the cylinder heads were offered with tiny 10mm spark plug holes. In early 1962, the heads were machined for the commonly seen 12mm (NGK D8HA spark plugs) and that continued throughout the rest of the production runs for all models.

Visually, the early heads were most easily identified by the U-shaped machine work done between the exhaust ports on the cylinder head fins. In 1965, there were numerous detail changes to the engines, including the elimination of the machining step for the fins, as they were now cast in a clean V-shaped design.

                                                                1965-on V-pattern head

1960-64 U-fin cylinder head.

People often question about the interchangeability of the cylinder heads across the three models. To manage the number of parts needed to build these engines, all the cylinder head castings are the same to allow for cross-building of the various engines. Apart from the single intake port Dream heads, all the dual port heads will interchange between Scramblers and Super Hawk models. Early Dreams had smaller exhaust valves, which were upgraded to the CB series exhausts in 1962. For 250-305 dual port heads, they all share the same valves, despite the difference in displacement sizes. There is a slight difference in the intake port size for the 250 heads, where the 22mm carburetor insulators match up to the intake ports.

Honda was able to use the same castings for the dual port heads, as far as the combustion chambers are concerned. The 54mm bore size of a 250, requires a tight hemispherical combustion chamber with a small squish area at the edge of the piston crowns. The same castings used for the 60mm 305 engines require a beveled chamfered machine cut to allow for the fitting of the larger pistons.

                                                      Combustion chamber for the 250cc engines

                                                          305cc combustion chamber

These cylinder heads do not use valve stem seals, rather there was a thin air passage drilled into the head that matched up with some cross-drilled intake valve guides. This system was thought to break up the oil film on the intake valve stems, reducing the tendency to suck engine oil past the stems and guides into the combustion chambers. Remarkably, this system seems to have worked efficiently for all the years, until 1967. Honda decided to eliminate the whole system just in the last year. The last generation engines don’t seem to be more prone to using oil than the previous types, however.

So, in conclusion, the main difference between 250 and 305 cylinder heads is the machine work on the edges of the combustion chambers. Heads are generally interchangeable between the various versions of the engines. Considering the engineering challenges faced in the late 1950s, to build motorcycle engines that could rev up to 9k plus in a world of plodding, low-rev OHV designs from European/British companies, the speed of manufacturing of components led to the dominance of Honda in the world of motorcycle manufacturing.

Bill Silver

aka MrHonda

www.vintagehonda.com

10-2024