SECTION 5-B 1955 BUICK DYNAFLOW TROUBLE DIAGNOSIS-ADJUSTMENTS ON CAR
5-9 1955 BUICK DYNAFLOW TEST AND INSPECTION
When improper operation of a 1955 Buick Dynaflow transmission is reported, time and expense will usually be saved by first making a thorough road test to observe operation in all ranges under appropriate driving conditions. The road test will also serve to thoroughly warm up the 1955 Buick Dynaflow transmission, which is required for any tests made in the shop.
The person making the road test should be familiar with the operation and performance of Dynaflow Drive in all ranges so that he will be able to detect any sub-standard condition. The required “feel” of a Dynaflow car can best be acquired by driving through a test routine on a number of cars whose performance is known to be satisfactory. Knowledge of which parts are in operation and which hydraulic controls govern operation in each range is essential to intelligent diagnosis, therefore, a study of paragraphs 5-4 through 5-12 is recommended.
After the 1955 Buick Dynaflow transmission has been warmed up to normal operating temperature, thoroughly test operation in all ranges, making tests on steep grades as well as on level road, if possible. While in Direct Drive test shifting of the variable pitch stator by pressing accelerator pedal to floor mat a number of times. A slight surge or change of engine speed accompanied by acceleration pick-up should be noted, indicating that the stator has shifted to the high angle position.
Test operation when shifting between Low and Direct Drive under load, also test operation in Direct Drive after extended operation in Reverse. Check for abnormal slip or over-run of the engine on low Speed acceleration. With car stopped on level road and brakes released, check for creep when engine is accelerated with 1955 Buick Dynaflow transmission in Neutral. Check for abnormal creep with engine idling and transmission in each of the driving ranges.
Place transmission in Direct Drive and firmly apply the brakes. Snap the throttle open to give engine speed of approximately 1400 RPM and immediately release the accelerator pedal. If the engine returns to idle too slowly, or else returns to idle so fast that it either stalls or rolls unevenly, improper throttle linkage and dash pot adjustment is indicated. Rough operation on idle after slow deceleration indicates the need for some engine tune up adjustments.
During all tests, be alert for any unusual or abnormal noises. Carefully note the range, speed and other conditions under which the noise is evident.
Shop Inspection and Test
After the road test described above, a number of shop inspections and tests should be made while the 1955 Buick Dynaflow transmission is thoroughly warmed up to operating temperature.
- Check Oil Level. In every case of a 1955 Buick Dynaflow transmission complaint first check the oil level as described in paragraph 1-1 (step 7). If oil level is low bring it to proper level and check the effect on operation before doing further work. If oil level is low and the car history indicates oil loss of one pint or more per 1000 miles, or transmission exterior is oily, a thorough inspection for oil leakage should be made as described in paragraph 5-11.
- Check Manual Control Linkage. In cases of improper operation in one or more ranges it is always advisable to check the adjustment of 1955 Buick Dynaflow transmission manual control linkage as described in paragraph 5-12.
- Test Oil Pressures in Hydraulic Control System. When diagnosing almost all cases of improper operation it is necessary to have accurate knowledge of oil pressures in the hydraulic control system. The following oil pressure tests should be made before performing any mechanical work.
- Check Engine and Transmission Mountings. Check the engine and transmission mounting bolts and condition of the rubber mountings and thrust pad. Also check for any marks on the bell housing or transmission oil pan that would indicate that these parts had been damaged by some obstruction, which might affect alignment of the 1955 Buick Dynaflow transmission.
Testing Hydraulic Control Oil Pressures
Before making the pressure tests oil level must be correct (par.1-1, step 7) and the transmission must be thoroughly warmed up to operating temperature. Place rear end of car solidly on car stands or use a free wheel type hoist so that plugged ports can be reached and transmission can be operated with rear wheels free to turn.
Remove pipe plug at the following points in turn and connect Pressure Gauge J 2575. (1) Front oil pump, on left side of 1955 Buick Dynaflow transmission case. (2) Rear oil pump, in lower flange at front end of rear bearing retainer. (3) High or low accumulator, on front upper corner of accumulator body. (4) Stator, on left end of reaction shaft flange. See figure 5-23.
Run engine at 500 RPM and test pump and accumulator pressures in Low, Drive and Reverse. Test front oil pump in all ranges and rear oil pump in all but Reverse. Test high accumulator only in Drive and test low accumulator only in Low. Repeat tests at 1000 RPM and 1800 RPM in Low and Drive only. The following pressures should be obtained on these tests.
Low or erratic oil pump pressure indicates an air leak into the pump suction line, faulty pressure regulator valve operation, or excessive clearance in pump. Low rear pump pressure also may be caused by a leak in the valve and servo body passages which connect the rear pump with the pressure regulator valve. If pressure of one pump is low but pressure of other pump is satisfactory, however, air leaks into suction line and faulty pressure regulator valve are eliminated as possible causes since both pumps use a common suction line and the same valve regulates pressure of both pumps.
Very low accumulator pressure may be caused by external or internal leakage past the accumulator body gasket. A difference of more than 10 psi between front pump and an accumulator indicates an excessive leak between the accumulator and the clutch (if high accumulator pressure is low) or the low servo (if low accumulator pressure is low), or else the metering orifice in accumulator is restricted or plugged.
Low pressure at high accumulator may also be caused by the stator oil circuit. Disconnect control rod from lever on accumulator, make certain that lever is properly positioned and tight on valve crank, then raise lever against its stop while noting gauge reading. A rise in pressure indicates a leak in the stator control circuit.
With the results of the road test and the pressure tests in mind, the cause of improper operation in most cases can be ascertained by using the suggestions given under the following paragraph 5-10.
5-10 1955 BUICK DYNAFLOW OPERATIONAL FAULTS, CAUSES AND CORRECTIONS
With the results of all tests and inspection recorded on the Buick Dynaflow Diagnosis Guide, the causes and corrections of improper operation can be determined from the suggestions on the other side of guide, which are covered in more detail below. Where paragraph numbers in parenthesis ( ) are shown they refer to other paragraphs in this manual where the required adjustment or repair procedure is given.
Engine Stalls while Decelerating Car with Brakes Applied
- Improper adjustment of throttle dash pot (par. 3-9).
- Engine not properly tuned up (par. 2-9).
1955 Buick Dynaflow Transmission Oil Foams and Spews Out of Breather
- Transmission over-filled (par. 1-1). If 1955 Buick Dynaflow transmission is overfilled, check for blackened condition of oil, indicating leakage of rear axle lubricant into transmission due to defective propeller shaft seals. Check for low oil level in rear axle housing. Correct cause of leakage and completely drain and refill transmission (par. 1-4).
- Water in transmission, indicated by over-filled condition and caramel color of transmission oil. Water in 1955 Buick Dynaflow transmission usually comes from a leaking oil cooler. In this case there may be excessive oil accumulation in top tank of the engine radiator. Correct the cause of leakage, and completely drain and refill 1955 Buick Dynaflow transmission (par. 1-4).
- Air leak into hydraulic system at rear oil pump gaskets (par. 5-14).
- Excessive clearance between output shaft and rear bearing retainer bushing. (par. 5-21).
Car will Not Move in Any Range – Rear Wheels Free
- If car will not move for 1 to 8 minutes after standing over night, park car for several hours with engine stopped and then check front oil pump pressure. A zero reading until such time as car will move indicates that front pump loses its prime due to excessive clearances. Inspect front pump (par. 5-18). If condition has existed for some time it is advisable to inspect clutch and bands for excessive wear due to slippage at low apply pressure (par. 5-20).
- If car will not move in any range after extended operation in Reverse it indicates air leakage into pump suction line and excessive clearance at front oil pump. Front oil pump pressure will be very low during period when car will not move. Inspect for air leaks at rear oil pump gaskets (par. 5-14). Inspect front oil pump and cover for excessive clearances (par. 5-18).
Car Will Not Move in Any Range – Rear Wheels Locked
- Parking lock engaged or parking brake applied.
- Lock up due to broken part in rear axle or 1955 Buick Dynaflow transmission.
Car Will not Move in Direct Drive Only
- If front oil pump and high accumulator pressures are OK, remove and inspect clutch assembly (par. 5-20).
- If front oil pump pressure is OK but high accumulator pressure is low and accumulator body gasket is not leaking internally, inspect for leaks in reaction flange gasket. If gasket is satisfactory, inspect clutch piston outer seal and ball check, also oil sealing rings on hubs of reaction shaft flange and low drum (par. 5-20).
Car Will Not Move in Reverse Only
- Reverse servo inoperative (par 5-17).
- Band improperly adjusted (par. 5-23) or band operating strut has dropped out of place.
Excessive Slip in All Ranges
- If condition occurs only after operation in Reverse, see subparagraph c (2) above.
- Low oil level (par. 1-1).
- Manual control linkage improperly adjusted (par. 5-12).
- If front oil pump pressure is low, remove and inspect pressure regulator valve and all valve and servo body gaskets (par. 5-17). If cause is not found remove and inspect front oil pump for wear or excessive clearances (par. 5-18). Inspect pump cover and reaction shaft flange gaskets for leaks.
Excessive Slip in Direct Drive Only
- Manual control linkage improperly adjusted (par. 5-12).
- Leak at high accumulator gasket, indicated by low oil pressure at high accumulator. (3) If above items are OK, remove and inspect clutch plates, sealing rings, and clutch piston. Inspect for stuck check ball in piston (par. 5-20).
Excessive Slip In Low Only
- Manual control linkage improperly adjusted (par. 5-12).
- Low band improperly adjusted (par. 5-23).
- If pressure at low accumulator is low, check for leak at accumulator body gasket. If gasket is OK remove valve and servo body and check for gasket leaks and condition of low servo piston seal (par. 5-17).
- Low band and drum scored or worn.
Excessive Slip in Reverse Only
- Manual control linkage improperly adjusted (par. 5-12).
- Reverse band improperly adjusted (par. 5-23). Check for strut out of place or broken anchor.
- If front oil pump pressure is low remove valve and servo body and check for gasket leaks and condition of reverse servo piston seal (par. 5-17).
- Reverse band and ring gear scored or worn.
Car Creeps Forward in Neutral
- Manual control linkage improperly adjusted (par. 5-12).
- Remove valve and servo body and check for low servo piston sticking up.
- Remove clutch and inspect for sticking, warped or improperly assembled clutch plates. Note whether “dish” of steel plates is in same direction on all plates. If creep occurs only when engine is accelerated to approximately 2500 RPM, pay particular attention to condition of check balls at vents in clutch piston and reaction shaft flange (par. 5-20).
Car Creeps Forward in Reverse or Backward in Low
Manual control linkage improperly adjusted (par. 5-12).
Low to Direct Shift Abnormally Rough, or Slip Occurs
- If high accumulator pressure is low remove accumulator and check body gasket. Check for accumulator piston sticking down. Top land of piston must be fully visible through top port in body (par. 5-19).
- If accumulator and gasket are OK, inspect for leaks in valve and servo body gaskets.
- Low band improperly adjusted (par. 5-23).
- Binding or worn clutch plates (par. 5-20).
Excessive Chatter or “Clunk” When Starting in Low or Reverse
NOTE: A very slight chatter just as car starts to move in reverse, which disappears as soon as car is in motion, may be considered normal. A slight “clunk” when shifting into Low or Reverse is also normal.
- Check engine and transmission mountings for tightness. Inspect for broken rubber thrust pad at 1955 Buick Dynaflow transmission mounting.
- Low or Reverse band improperly adjusted (par. 5-23).
- If (1) and (2) do not correct trouble, direct drive clutch may be dragging. Remove clutch and inspect for sticking, warped, or improperly assembled clutch plates. Note whether “dish” of steel plates is in same direction on all plates (par. 5-20).
- Inspect for excessive wear of reverse ring gear bushing. Check for foreign matter in planet pinion needle bearings (par. 5-22).
Hard Shifting Out of Parking
Caused by binding of 1955 Buick Dynaflow transmission shift rod in shift idler lever. If a burr exists on shift rod where i.t enters idler lever, remove burr with a file. If idler lever is distorted replace the lever.
Noises in 1955 Buick Dynaflow Transmission
When diagnosing abnormal noises in the 1955 Buick Dynaflow transmission consideration should be given to the parts that are in motion when the noise occurs. The presence or absence of noise in each range should be noted so that the parts which cause the noise can be determined by a process of elimination.
A hum or low whine in Neutral or Parking is normal since all planetary gears are free to rotate without the steadying effect of a load. Some hum also may be expected in Low and Reverse.
A low growl in 1955 Buick Dynaflow transmission which disappears in several minutes after engine is started, following extended parking in extremely cold temperatures is caused by cavitation of the cold oil. This is a normal condition which requires no correction.
A buzzing noise can be caused by low oil level, or by the front pump delivery check valve seating on the edge of the gasket between valve and servo bodies. A buzzing noise, noticeable in Parking and Neutral, may be caused by excessive clearance of pressure regulator valve in valve body or an oversize orifice in valve land; correction requires replacement of valve.
A clicking noise in all ranges may be caused by a foreign object going through the converter.
A clicking noise only when car is in motion may be caused by the parking lock pawl contacting the ratchet wheel due to improper manual control linkage adjustment.
Abnormal hum or whine which occurs in all ranges may be attributed to worn parts or excessive clearances in the front oil pump. Noise caused by the front pump will increase in Low and will diminish at car speeds above 45 MPH in Direct Drive. It increases and decreases with engine speed in all ranges. When excessive clearances exist in front oil pump the pressure test will usually indicate low front pump pressure.
Abnormal hum or whine in all ranges but Direct Drive may be attributed to conditions in the planetary gear train since these gears are locked in Direct Drive but either idling or transmitting power in all other ranges.
Squealing or screeching immediately following installation of front oil pump parts indicates that the driving gear has been installed backwards. This condition should be corrected without further operation of 1955 Buick Dynaflow transmission as severe damage will result.
A whistling noise which occurs during low speed acceleration in Drive, Low, and Reverse, accompanied by unsatisfactory transmission performance indicates cavitation of oil due to incomplete filling of torque converter. Remove valve and servo body assembly and check for restrictions in passages leading to torque converter. If these passages are clear, check passages in reaction shaft flange.
A whistling noise which occurs during low Speed acceleration in Drive, Low, and Reverse but with otherwise satisfactory transmission performance may be caused by thin, weak, or cracked turbine vanes, or vanes which are bent over at the exit edges. Such vanes will vibrate under load, causing a whistle. Replacement of the turbine is required for correction.
5-11 LOCATION AND CORRECTION OF 1955 BUICK DYNAFLOW OIL LEAKS
If the 1955 Buick Dynaflow transmission is found consistently low on oil, indicating loss of 1 pint or more per 1000 miles, a thorough inspection should be made to locate and correct all external leaks. An inspection for external leaks also should be made if the oil pump and accumulator tests described in paragraph 5-9 show low oil pressure, since leaks at some gaskets which affect pressure will show externally.
If the exterior of 1955 Buick Dynaflow transmission is not wet with oil or the following inspection procedure does not reveal any external oil leaks, check the lubricant level in the rear axle housing. An overfilled rear axle housing indicates leakage past the propeller shaft seal. The rear axle should be disconnected at torque ball flange for inspection of this seal. CAUTION: Discard rear axle lubricant that has been diluted with oil from a 1955 Buick Dynaflow transmission.
In some cases, oil leaks which show externally can be corrected without removal of 1955 Buick Dynaflow transmission, but in other cases removal is necessary. For this reason it is very important to locate the source of an external oil leak before removal of transmission in order that the cause can be definitely identified during disassembly operations. In the disassembly operations given in Section 5-C, attention is always directed to inspection of each gasket at time of removal since at that time the clues to leakage are clearly shown in the condition of gasket and the imprint of adjoining parts.
Inspection of 1955 Buick Dynaflow Transmission for External Leaks
If exterior of 1955 Buick Dynaflow transmission is oily, first make certain that the oil is not coming from the engine, since engine oil caught in the air stream will be thrown back over the transmission. If engine upper or lower crankcase is wet with oil, thoroughly wash and dry then run engine until cause of engine• oil leakage is found and corrected.
To check for 1955 Buick Dynaflow transmission oil leakage place car on high car stands or a free wheel type hoist so that engine and transmission can be operated with rear wheels free and transmission can be inspected.
Remove the bell housing cover and hand hole cover. Thoroughly clean the inside of bell housing and surfaces of flywheel and primary pump as far as possible. Use carbon tetrachloride or other non-inflammable quick-drying cleaner. It is impossible to locate the source of an oil leak unless all visible surfaces are clean and dry.
Start engine and operate 1955 Buick Dynaflow transmission in Direct Drive until transmission is warmed up or until an oil leak becomes evident. Thoroughly inspect for evidences of fresh oil at the following points.
- Low and Reverse adjustment hole cover.
- Oil gauge rod filler pipe.
- Rear bearing retainer at flanges, cross shaft bearing seal and torque ball.
- Oil Pan.
- High and low accumulator plugs, caps and body gaskets.
- Reaction shaft flange to front oil pump cover and to 1955 Buick Dynaflow transmission case gaskets.
- Face of flywheel and interior of bell housing.
Even though oil does not show in interior of bell housing check for oil leaks at primary pump cover and at front oil pump. To check primary pump cover hold a piece of white paper or cardboard between flywheel and bell housing. To check front oil pump insert a long roll of paper through hand hole toward the pump. If oil is leaking at either place-oil spray will be visible on the paper.
After inspecting 1955 Buick Dynaflow transmission while operating in Direct Drive shift to Low, run engine at 1000 RPM and repeat the inspections outlined. The higher pump pressure existent in Low may cause a leak to show that would not be evident at the lower pressure existent in Direct Drive.
Oil Leaks at Adjustment Hole Cover or Oil Gauge Rod Base
A leak at an adjustment hole cover may be corrected by removing cover and installing a new cover gasket.
An oil leak at connector hose of filler pipe may be corrected by tightening hose clamps or replacing the hose. Leaks at junction of filler pipe with oil pan may be corrected by silver soldering.
Oil Leaks at Rear Bearing Retainer
An oil leak at the cross shaft bearing seal may be corrected by removing the bearing and replacing the seal. Seal must be installed with grooved side facing inward.
If oil leaks at joint between rear bearing retainer and transmission case tighten the seven 3/8″ bolts to 35-40 ft. lbs. torque with transmission hot. If gasket is blown out at the bottom, or tightening of bolts fails to correct leak, the rear bearing retainer must be removed for inspection.
If oil leaks at torque ball examine the boot for cracks and proper installation at both ends. Tighten retainer bolts to 30-35 ft. lbs. torque. If leak still exists, it will be necessary to remove torque ball for inspection.
1955 Buick Dynaflow Transmission Oil Leaks at Oil Pan Gasket
If oil leaks at oil pan gasket carefully tighten all bolts and nuts to 15-18 ft. lbs. torque. If bolts and nuts are tight, or tightening fails to correct the leak, remove pan for inspection.
Remove old gasket and clean oil pan thoroughly. Inspect pan for cracks or other damage, and check mounting flange with straight edge. If pan is cracked or flange is uneven and cannot be trued up satisfactorily, replace oil pan.
Install old or new pan and after transmission is warmed up again tighten bolts and nuts to 15-18 ft. lbs. torque.
1955 Buick Dynaflow Transmission Oil Leak at Accumulator
If oil is leaking around accumulator cap remove cap and coat threads with Permatex No. 3. Install cap with a new gasket and tighten to 40-50 ft. lbs. torque.
If oil is leaking at accumulator body gasket, inspect for broken flange on body. Replace accumulator if flange is broken, otherwise tighten bolts and nuts to 20-25 ft. lbs. torque. If leak continues, remove accumulator for inspection. Inspect gasket for condition and imprint of accumulator body. Test mounting surface of accumulator body with straight edge and if it is uneven disassemble accumulator and true up the surface as described in paragraph 5-19. If body is porous or cracked replace accumulator assembly. Reinstall accumulator with new gasket placed so that small drain hole lines up with drain hole in reaction shaft flange, then tighten bolts and nuts to specified torque.
Oil Leaks at Reaction Shaft Flange or Front Oil Pump Cover
If oil leak is at gasket between reaction shaft flange and transmission case tighten accumulator bolts to 40-50 ft. lbs. torque. If leak is at gasket between the flange and the front oil plump cover tighten the bolts and nut at outer lower corners of pump cover. If tightening does not correct the leak it will be necessary to remove transmission for inspection of parts at this point.
1955 Buick Dynaflow Transmission Oil Leaks in Interior of Bell Housing
An oil leak showing on front side of flywheel is probably caused by loose converter drain plugs which must be tightened. If plugs are not leaking check for leakage past the crankshaft rear bearing.
If an oil leak at converter pump cover is indicated by the test with paper (subpar. a), tighten all converter pump cover bolts to 25-30 ft. lbs. torque, following the sequence shown in figure 5-102. If this fails to correct the leak it will be necessary to remove the 1955 Buick Dynaflow transmission for inspection of parts at this point.
If an oil leak at front oil pump is indicated by the test with paper it will be necessary to remove the 1955 Buick Dynaflow transmission for inspection of front oil pump and converter pump hub. Before removing transmission, wash and dry the interior of bell housing again, then run in Direct Drive until the first indication of oil appears on the roll of paper and shut off engine. This procedure will leave a clear oil marking at the source of the leak which will aid in correction when transmission is disassembled at front oil pump.
Internal Oil Leaks
Internal oil leaks which affect transmission operation are indicated by the oil pump and accumulator pressure tests described in paragraph 5-9.
Since low pump or accumulator pressure can be caused by faulty pressure regulator valve operation or leaks at joints between the valve body, servo body, and transmission case it is advisable to first remove the valve and servo body assembly for inspection as described in paragraph 5-17. This can be done without removal of transmission. It is also advisable to check the condition of accumulator body gasket. If the cause of the internal leak is not disclosed by this work it will be necessary to remove the transmission for inspection of pumps and direct drive clutch.
5-12 1955 BUICK DYNAFLOW MANUAL CONTROL MECHANISM AND LINKAGE ADJUSTMENTS
1955 Buick Dynaflow Transmission Stator Control Linkage
Stator variable pitch operation is controlled by a valve in the high accumulator which is operated through external linkage by the throttle linkage at wide open throttle position. Since proper adjustment of the stator control linkage is dependent upon proper adjustment of throttle linkage, all adjustments are covered together in paragraph 3-9.
1955 Buick Dynaflow Transmission Shift Control Linkage
The shift control lever mounted in the housing at upper end of steering column jacket operates a tubular control shaft located inside the column jacket. When the lever is pulled upward toward the steering wheel the control shaft is moved downward against a return spring until the lower lever is disengaged from a stop plate on steering column jacket. The control shaft can then be rotated by movement of the control lever. The control shaft lower lever operates the 1955 Buick Dynaflow transmission shift lever through connecting rods and an idler lever mounted on car frame.
The shift lever operates a cross shaft inside the rear bearing retainer, from which linkages connect to the shift control valve and the parking lock pawl. A spring loaded detent lever and roller engages notches in a detent plate on the cross shaft to hold the control valve in any set position.
Shift Control Linkage Adjustments
When a 1955 Buick Dynaflow transmission does not operate properly it is advisable to first check the shift control linkage adjustment, after 1955 Buick Dynaflow transmission is warmed up to normal operating temperature and oil is at proper level.
- With shift control lever released, the stop screw in control shaft lower lever must be flush (± .010″) with upper surface of stop plate. Adjust as required. See figure 5-24.
- Disconnect lower shift rod clevis from idler lever and make sure that 1955 Buick Dynaflow transmission shift lever is firmly held by detent in Drive position.
- With shift control lever on steering column in Drive position, push upward on idler lever to hold the stop screw in contact with stop plate, then adjust clevis in shift rod so that clevis pin will freely enter clevis and lever.
- Shorten length of rod and clevis by turning clevis 1J2 turn up on rod, then install clevis pin with anti-rattle washers and tighten the clevis lock nut. The 1/2 turn of clevis provides the specified clearance at stop pin.