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Engine Removal and Clutch Bearing Repair


Freebird

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Thanks to Scott MacMartin from Ottawa Canada for this excellent article.

 

1984 Yamaha Venture Motorcycle

 

Engine removal, repair, and re-installation

 

Distance traveled since purchase 208,728 km (about 130,000 miles). This Venture was the second year of production, built January of 1984.

 

My 1984 Venture was making a rumbling sound at idle, which went away if I pulled lightly on the clutch. I pulled the clutch cover off, and removed the clutch. It was apparent that the bearing behind this clutch was distressed.

Late fall is a relatively nice time in Ottawa, Canada. Temperatures vary widely, from highs around 20 (70f) to highs barely above freezing. I put the bike in the back of the garage, borrowed my brother's 1500-watt heater, and set to replacing this bearing. The garage is now very pleasantly warm (and quiet too - I can hear my watch ticking). This is an excellent time of year to spend a bit of time in the garage with the Venture.

  • First some tools. The Yamaha tool kit is useful, but not adequate for this job. I used the following additional tools:
  • 1. Torque wrench (50 foot pounds)
  • 2. Metric Allen key set
  • 3. Feeler gauges
  • 4. Hydraulic car jack with wheels (3000 pounds)
  • 5. Socket set (10mm to 19mm)
  • 6. 1000 pound press (homemade with 2by6 lumber)
  • 7. Yamaha Shop service manual
  • 8. Circlip pliers

The engine can be removed in an afternoon, if you keep steady at it. Since my brain is not total recall, I place each part removed along the garage wall beside the last part I took off. That way re-assembly is just a matter of picking up a row of parts and bolting them back onto the bike.

Clicking on the thumbnail photos will open a much larger copy of that photo.

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/810a.jpgThe carbs, exhaust system, rear brake master cylinder, battery, and radiator have been removed. The bolts for the thermostat housing and the starter motor are a bit tight, and I have put WD40 on them. These bolts should remove easily tomorrow. A neighbor's child drops by to see what I am doing.

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/811a.jpgThe bodywork has been removed, the YICS chamber, and the air deflector dams. Foot pegs and shift lever have been taken off. All of the engine attachment points (except three) have been removed. The small hydraulic jack with wheels will be used to lift and move the engine 2 feet to the waiting "pad".

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/813a.jpgThe engine has been out for 10 seconds or so. The engine rests on a piece of blue Styrofoam. It is apparent that the engine is also cosmetically not well - just have a look at that chrome cover on the clutch housing!! The radiator hoses are still attached. On re-assembly, I found it easier to put the radiator hoses on after the engine was in.

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/814a.jpgI am working in a fairly small space - the back half of a one car garage. The blue and black boxes hold my tools. The floor has the parts, in order of removal - drive shaft, exhaust components, radiator assemblies, starter motor, and engine mounting hardware.

 

 

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/815a.jpghttp://www.venturerider.org/engineremoval/photo_hdr.shtml_files/816a.jpghttp://www.venturerider.org/engineremoval/photo_hdr.shtml_files/817a.jpgSeveral photos of the failed bearing. You can see that the balls and race are perfectly fine, but the ball-bearings are all bunched to one side. The bearing cage has failed.

 

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/818a.jpghttp://www.venturerider.org/engineremoval/photo_hdr.shtml_files/819a.jpgThe oil sump has been removed. Two views of the oil pump. You can see small bits of the bearing retainer on the oil pump intake screen. Later, I found other pieces trapped in the baffles on the sump itself.

 

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/820a.jpgThe various items that attach to the side of the motor are removed (stator, coolant and clutch housings, and the clutch slave cylinder). The oil pump is removed as a single unit, and is not disassembled. The crankcase bolts are loosened in order, and then removed. The crankcase easily pops in half.

 

http://www.venturerider.org/engineremoval/photo_hdr.shtml_files/821a.jpgI have placed the shaft with the failed bearing in the top half of the crankcase for this photo. It is only now that I realize that a 2ton press will be needed to remove this bearing. It is a press fit onto the shaft!! This should be an amusing problem to solve. Perhaps I will sleep on it...

 

http://www.venturerider.org/engineremoval/photo_hdr2.shtml_files/823a.jpgI set the shaft with the stubborn/broken/press fitted bearing aside in the kitchen while I wait for the new bearings to arrive from the dealer. Yamaha Canada is amazing. EVERY single part that I order is in stock in the central warehouse in Toronto, and will be here in three days. Nothing is back-ordered or out of production. It is hard to believe that I am ordering parts for a 16 year old motorcycle.

 

http://www.venturerider.org/engineremoval/photo_hdr2.shtml_files/824a.jpghttp://www.venturerider.org/engineremoval/photo_hdr2.shtml_files/825a.jpgThis is our first view of the upper crankcase. The shaft with the failed bearing is of course in the kitchen, so you cannot see it here. The rear shaft (the "driven" gear set) has two bearings that I will be replacing also. I will have to use a press to gain access to one of these bearings also.

 

http://www.venturerider.org/engineremoval/photo_hdr2.shtml_files/826a.jpgI now can guess why this clutch bearing failed. It is a standard ball bearing. However, unlike all the other ball bearings in this engine, this one ball bearing set must resist sideways thrust every time you pull on the clutch. I show here the clutch pushrod, the seals (I ordered new ones), and the bearing.

 

http://www.venturerider.org/engineremoval/photo_hdr2.shtml_files/827a.jpgThe shift mechanism has long seemed a confusing piece inside the motorcycle. I can understand its design when I look at it closely in real life, but in the photo it looks confusing once again. To me, a planetary gear set would seem a better way to provide gearing on motorcycles.

 

 

http://www.venturerider.org/engineremoval/photo_hdr3.shtml_files/831a.jpgThis is one of the covers that I cleaned up. The clear-coat applied by Yamaha back in 1984 had weathered a bit over the last 200,000km. This was removed with a paint remover that "removes epoxy paint". Does the job just fine!! Anything that I missed the first time comes off with a second application.

 

http://www.venturerider.org/engineremoval/photo_hdr3.shtml_files/832a.jpgIn areas that the cover had corroded, a gentle circular sanding with 400 grit wet sandpaper brought up a uniform appearance. I use soap with the sandpaper to keep the sandpaper from loading up.

 

 

http://www.venturerider.org/engineremoval/photo_hdr3.shtml_files/834a.jpgPolishing is a peculiar task. Place a small bit of polish on the rag, and then polish lightly until the polish dries out. At that point of dry friction, more vigorous polishing yields excellent results. I initially used a white shop cloth, but later used "White Swan absorbent and strong paper towels" with results just as good. (and I did not mind throwing these towels out after a single use!)

 

http://www.venturerider.org/engineremoval/photo_hdr3.shtml_files/835a.jpgThese are the three products, and the most excellent result. I purchased a high temperature clear coat spray can used by the local Harley Canada dealer, and trust that it will provide an excellent long term protection.

 

http://www.venturerider.org/engineremoval/photo_hdr4.shtml_files/849a.jpgI went to the lumber yard, and for 5 bucks purchased a length of 2by6. Screwed it together, and drilled a hole of suitable size for the disassembly of this shaft. Note that the wheels on the jack are not supporting the force. A section of 2by6 is directly under the jack so that the jack does not try to move while under load.

 

http://www.venturerider.org/engineremoval/photo_hdr4.shtml_files/852a.jpgI push the shaft up effortlessly with the car jack, and the spring on this shaft compresses. The split washers appear, and it is a simple process to pull the split washers and disassemble the shaft. These two split washers, and the full washer behind them, were the cause of all that "second gear" grief in the 1983 and 1984 model years. I had replaced these split washers almost 100,000km ago when my second gear had failed and thought it might be a good idea to change them again. There was no need. Less that a thou had worn off these washers in those 100,000km (by comparison, the original split washers had worn half through in the first 105,000km, causing the second gear failure).

http://www.venturerider.org/engineremoval/photo_hdr4.shtml_files/853a.jpgI have now replaced the bearing on this shaft, re-installed the spring and gear/bearing (the gear and upper bearing are a single unit and do not need to be disassembled). Apply a little force with the car jack to compress the spring, insert the washer and split washers. Release the car jack and the shaft is ready to go!!

 

http://www.venturerider.org/engineremoval/photo_hdr4.shtml_files/854a.jpgThis same press was used to remove the failed bearing behind the clutch, and re-install the new one. The forces on this operation are significant - I would guess a thousand pounds force to push the bearing onto the shaft. While I replaced many items as part of this project, this one bearing was the only item that absolutely required replacement.

 

http://www.venturerider.org/engineremoval/photo_hdr5.shtml_files/855a.jpgThe cases drop together (with care to ensure that it IS easy, or something is out of place). Bolts on the lower cases and upper cases hold the two sides together firmly. I use Three Bond to ensure that the cases do not weep. You can see the 8 main crankcase bolts ready to be tightened.

 

 

http://www.venturerider.org/engineremoval/photo_hdr5.shtml_files/856a.jpgThe oil gallery has been dropped in place. The oil pump will be added after these bolts are tightened. Then the sump is put on, and the bottom of the engine is now completely assembled. I roll the engine up-side-up and torque the upper crankcase bolts to specification.

 

http://www.venturerider.org/engineremoval/photo_hdr5.shtml_files/860a.jpgThe clutch housing needs to be tightened onto the shaft that it rotates on. We will need a "special tool" to hold the basket from turning while we provide the correct tightening torque.

 

 

http://www.venturerider.org/engineremoval/photo_hdr5.shtml_files/861a.jpgOnce again, wood is my special tool maker. I drill a hole in the lumber so that I can fit the socket through, and fasten two arms (purchased for 29 cents each) so that they slide into the slots on the clutch basket. Then torque to 600 inch pounds, by far the highest torque of any bolt on this engine.

 

http://www.venturerider.org/engineremoval/photo_hdr5.shtml_files/862a.jpgThis is the setup. The torque is 50 foot pounds, so I use the empty frame of the Venture to hold the piece of lumber from turning. There is a lock tab under the bolt which must be bent over to ensure this bolt does not move. I bend it over with a screwdriver. I re-install the clutch plates, and torque down the pressure plate. The clutch housing can now be installed. The engine is ready to be re-installed in the bike.

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/863a.jpgI am very pleased at the appearance of the cams. They show no chipping, scoring, or other signs of stress. The exhaust valve clearances should be slightly higher than the intake valve clearances.

 

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/864a.jpgA detailed examination shows the tolerances to be good. On the chart, some of the tolerances look "too tight" by half a thousandth of an inch. I am not going to replace a shim which is only half a thousandth of an inch out of range.

 

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/866a.jpgThe valve covers need a little cosmetic refreshing as well. I ran these through the same process as the other covers, although I added "washing in the dishwasher" to get the crevices perfectly clean before spraying on the clear coat paint.

 

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/868a.jpgThis multipart piece sits on top of the engine between the cylinders. It too needed shining up. On assembly, I used Three Bond to ensure that the part would not weep. (this part is normally sealed by two intricate O-Rings. The O-rings do their best, but are not quite up to the task on my Venture.)

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/870a.jpgThis multipart piece seems to do many tasks!! It has passages for coolant, sections for crankcase ventilation, and piping for high pressure oil to the cylinders. I will be happy to install this part and forget about it. I really hope it does not get an oil mist on it like it did over the last 100,000km

 

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/871a.jpgThis is the starter motor. If you remove the two long bolts, the motor comes apart for maintenance. The brushes are in excellent shape. This starter motor needed just a little cleaning up inside and out, and that's all.

 

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/873a.jpgThe multipart piece is installed. The cam covers are being installed. The cam covers get new gaskets, and new "seals" around each of the bolts. These seals have never been previously replaced which is perhaps why they misted oil onto the cam cover. This task could normally be done with the engine "in" the frame, although it is vastly easier to accomplish with the engine "out"

 

http://www.venturerider.org/engineremoval/photo_hdr6.shtml_files/874a.jpgThe engine is ready to install!!

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/877a.jpgThis is a task that I am a little apprehensive about. I am not exactly a strong man, and I am nearly 50 years old. This engine will have to be balanced on the jack and then kept balanced while I move the jack under the frame. The back end of the engine must go in first, since the drive shaft part must fit into the swing arm. Once that is in place, the engine can be straightened out and bolted in place.

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/879a.jpgThe drive shaft part is nicely in the swing arm, and the engine can now be straightened out. I have lifted and lowered this engine a number of times by a quarter of an inch or so while I maneuver it around the various obstacles. Even so, I break a small tab on the upper fairing. I will repair this break later with a thin aluminum sheet.

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/882a.jpgThe engine is back in!! I have held it with two bolts at the rear of the engine and an incorrect temporary bolt at the front of the engine. I am so relieved that this step has been successful that I stop for an early Saturday lunch.

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/884a.jpgInstallation of the starter motor, and the oil filter (I use an aftermarket spin on filter for convenience). You can see the "incorrect bolt" just above the starter motor, which is temporarily holding the motor in place.

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/885a.jpgThe coolant system gets installed, with new o-rings all around (the coolant system would occasionally weep a bit when left overnight. I had purchased the seals about a year ago but had not "got around to" replacing them.) The radiator sits ready to be installed next.

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/886a.jpgThe radiator is in and filled with 50% aluminum antifreeze and 50% distilled water. The right frame tube needs to be installed next. This frame tube is one of the few parts that requires "Loctite Blue" when assembling.

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/887a.jpgHere is a task that I have not ever done!! I have never opened the top of the rear master cylinder and cleaned it out. Turns out there is a little diaphragm (just like in the handlebar units) that could use a little cleaning. Bled this rear brake, the clutch system, and the front brake.

 

 

http://www.venturerider.org/engineremoval/photo_hdr7.shtml_files/888a.jpgHere is the jack that Scott used. Also the heater which made this job so relaxing and comfortable. On the heater sits the air cleaner box which has just been de-greased. And to the right on the floor, a large socket used to adjust the swing arm pivot bearings.

 

 


Well, this is the end of the photo story. The rest of the bike needs to be put together. And then I expect to drive many, many years. I will let you know at 300,000km.... Edited by Freebird
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