MANUAL TRANSMISSION SERVICE Introduction
Contents
1. n The insert presses the baulk ring up against the selected gear s braking surface Shifting insert Spline portion n This slows the gear down sufficiently so a smooth shift takes place When down shifting the insert presses the baulk ring against the selected gear matching gear speed to output shaft speed Note Coupling sleeves and hubs can be directional Use the service manual and verify proper direction on reassembly WV INFINITE Double and Triple Cone Baulk Rings A double cone or triple cone synchronizer is utilized in cases where there are high demands for performance and or reduction of gear shifting force These are normally installed on 1st and 2nd gears The double and triple cone synchronizers use two and three times the braking surface of a normal baulk ring 1st gear baulk ring 2nd gear baulk ring Main Gears As mentioned earlier transmission forward gears are a helical cut design Not only are they helical cut they have beveled teeth machined into the face of the gear This enables the coupling sleeve a surface which it can engage and readily lock onto Gear Endplay Designed into each gear is a specified endplay Endplay is defined as the clearance between the gear and the collar on the shaft or two gears Endplay or clearance between the gears allows for lubrication of the two components WV INFINITE Too much endplay could create unusual noises difficulty in shifting2. jumping out of gear or difficulty in taking the transmission out of a particular gear Insufficient endplay could result in noise wear or even binding This could also create the effect of being in two gears at one time The gear endplay should be measured prior to disassembly and reassembly of a transmission Reverse Gears The output shaft and counter shaft each contain a reverse gear When a vehicle moves forward the counter shaft and mainshaft spin in opposite directions The shaft rotation speed depends on the engine rom and selected gear When the vehicle is standing still and reverse is selected the reverse gear on the output shaft engages the idler gear This causes the output shaft to spin in the reverse direction allowing the vehicle to back up Bearings Bearings reduce friction by providing smooth metal balls or rollers and a smooth inner and outer metal surface for the balls to roll against These balls or rollers bear the load allowing the device to spin smoothly 10 WV INFINITE The bearings used in the transmission support the input countershaft and output shafts On front wheel drive vehicles bearings also support the final drive Whether the transmission ts front wheel drive or rear wheel drives determines which types of bearings are used Rear wheel drive transmissions use primarily a caged ball bearing Front wheel drive manual transmissions use a combination of both the caged ball bearing an
3. Baulk Rings Before a shift takes place it is necessary to synchronize the rotating speeds of the transmission elements being joined Where each gear on the mainshaft spins freely The synchronizer hub is splined directly to the shaft and the coupling sleeve is splined to the synchronizer hub The external splines on the hub provide a sliding surface for the coupling sleeve splines as well as lock the sleeve to the hub When a shift is complete the coupling sleeve is engaged to the gear beveled teeth This locks the gear to the shaft through the synchronizer hub n Most synchronizer hubs coupling sleeves and shift inserts serve a dual purpose The coupling sleeve pushes against the shift insert which pushes against the baulk ring The baulk ring slows down or speeds up the spinning gear which enables the coupling sleeve to lock the gear to the shaft When shifting to the next gear the driver moves the shift lever which in turn moves the shift fork and coupling sleeve unlocking one gear then passing through a neutral position and locking another gear on the opposite side of the hub and coupling sleeve The baulk ring is made of a softer material such as brass or iron It s designed to slow down or brake the selected gear during up shifts and speed up the selected gear during down shifts Each coupling sleeve has three shift inserts which are held in place with either a coil spring ora spread spring During the shift
4. Is moving or not The input shaft in turn drives the counter shaft Whenever the input shaft turns the counter shaft rotates as well When a gear is selected the counter shaft then turns the output shaft which is connected to the drive shaft or drive axle The output shaft only turns when the vehicle is moving piss w xib NS a a as i K SO Hy A 1 NAVA ws AD AN ms Same ees AA N N KR es ati i Z y Shift Lever Using the gearshift the driver selects the desired gear for the driving condition The gearshift or shift lever connects the transmission using either a shift rod or shift cables The shift rod or cables move the internal shift rods This slides the shift fork which is attached to the coupling sleeve SEC 328 o aQ 0 12 7 17 0 I he 6 3 8 3 1 3 1 7 10 12 K O xf 0 65 0 84 56 73 PAN ge 12 7 17 0 1 3 1 7 10 12 E3 PJ 11 8 15 6 1 2 1 5 9 11 W Nem kg m in lb O N m kg m ft lb WV INFINITE The shift fork could be compared to an oarlock on a rowboat Moving the shift fork engages the selected gear Before a shift takes place it s necessary to synchronize the rotating speeds of the transmission elements Having the hub splined to the shaft and the c
5. In these devices a motor or pulley typically drives one shaft and the other shaft drives ENGINE 7 a MANUAL TRANSMISSION YP STICK SHIFT l le a Zi another device In the case of the n Sa tea cy motor vehicle it is either a driveshaft rear drive or drive axle front drive The clutch connects the two shafts so that they can either be locked together and spin at the same speed or be disconnected and spin at different speeds lt When the engine is running the flywheel and clutch are constantly spinning but the drive wheels aren t In order for a car to come to a complete stop without stalling the engine the wheels need to be disconnected from the engine The clutch connects and disconnects the engine from the transmission during start up and shifting The clutch allows a smooth engagement between a spinning engine and a non spinning transmission The flywheel and clutch cover or pressure plate are both connected directly to the engine while the clutch disc is connected to the transmission through the input shaft DISENGAGED When the clutch pedal is pressed a cable or hydraulic piston pushes on the release fork which presses the throw out bearing against the middle of the diaphragm spring As the middle of the diaphragm spring is pushed in a series of pins near the outside of the spring causes the spring to pull the pressure plate away from the clutch disc This releases the clutch fr
6. WV INFINITE MANUAL TRANSMISSION SERVICE Introduction Internal combustion engines develop very little torque or power at low rpm This is especially obvious when you try to start out in direct drive 4th gear in a 4 speed or 5th gear in a 6 speed manual transmission the engine stalls because it is not producing enough torque to move the load Manual transmissions have long been used as a method for varying the relationship between the speed of the engine and the speed of the wheels Varying gear ratios inside the transmission allow the correct amount of engine power to reach the drive wheels at different engine speeds This enables engines to operate within their power band A transmission has a gearbox containing a set of gears which act as torque multipliers to increase the twisting force on the driveshaft creating a mechanical advantage which gets the vehicle moving From the basic 4 and 5 speed manual transmission used in early Nissan and Infiniti vehicles to the state of the art high tech six speed transmission used today the principles of a manual gearbox are the same The driver manually shifts from gear to gear changing the mechanical advantage to meet the vehicles needs Nissan and Infiniti vehicles use the constant mesh type manual transmission This means the mainshaft gears are in constant mesh with the counter gears This is possible because the gears on the mainshaft are not splined locked to the shaft They
7. are free to rotate on the shaft With a constant mesh gearbox the main drive gear counter gear and all mainshaft gears are always turning even when the transmission is in neutral WV INFINITE Transmission Designation Each transmission has its own unique designation A front wheel drive designation always begins with RS and a rear wheel drive designation always begins with FS Each designation goes as follows Front Wheel Drive Rear Wheel Drive RS6F51A or H FS6R31A RS Remote Shift FS Fixed Shift 6 6 Forward gears 6 6 Forward gears F Front drive R Rear drive 51 Model designation 31 Model designation A Standard final drive A Version H Helical type limited slip final drive Note The letter V on some front drive transmissions indicates a viscous coupling limited slip final drive Unit Operation Engines have a maximum rpm value The transmission allows the gear ratio between the engine and the drive wheels to change as the car speeds up and slows down The driver shifts gears so the engine stays below the rpm band of its best performance CLUTCH ENGINE PEDAL gt TRANSMISSION D DRIVE SHAFT CLUTCH U JOINT DIFFERENTIAL REAR WHEEL WV INFINITE Input Shaft Counter Shaft and Output Shaft The input shaft is in constant mesh with the clutch disc In other words the clutch disc drives the input shaft When the clutch is engaged the input shaft continually turns whether the car
8. da tapered bearing The tapered bearing is used so a preload can be added to the shaft during assembly and overhaul Tapered bearings have a calculated amount of tension or preload applied to them Too much preload causes the bearing to overheat Too little preload causes the bearing to wobble inside the bearing outer race Both conditions cause premature bearing failure Front Wheel Drive Final Drive Front wheel drive vehicles are completely self contained Within the transmission case is the differential or final drive The transmission mainshaft is in constant mesh with the final drive ring gear The output gear turns the ring gear and final drive assembly thereby turning the drive axle shaft which is attached to the wheels Input shaft CEED AE Mainshaft assembly O assembly UTA LLULL Final drive Reverse idler S assembly 7 7 gear assembly WSS rs h at NUNS SA SS 11 WV INFINITE The final drive is a conventional arrangement of gears that divide the torque between the drive axle shafts The final drive consists of a set of four gears Two are called final drive side gears and two are final drive pinion gears Each side gear is splined to a drive axle shaft which must turn when its side gear rotates Power Flow The function of any transmission is to transfer power from the engine to the drive wheels Lower gear ratios in the transmission serve as torque multipliers and assist the engine develop enough po
9. gh speeds torque multiplication isn t necessary On a five speed manual transmission 4th gear is 1 00 1 Some FWD transmissions such as the 6 speed Sentra and Maxima don t use a 1 00 1 ratio in 4th or 5th gear Power Flow Front Wheel Drive Power flow through a front wheel drive is almost the same as a rear wheel drive transmission The exceptions are the layout of the main and countershafts along with the final drive housed with the transmission components On front wheel drive transmissions the mainshaft becomes the input shaft and the countershaft becomes the mainshaft The illustration below shows the power flow through 4th gear on the RS5F51A transmission housing Input 2nd main gear 13 WV INFINITI Clutch Operation and Assembly ENGINE gt lt gt MANUAL TRANSMISSION For ease of driving in all conditions and speeds all manual transmissions STICK SHIFT require the use of some type of clutch The clutch is used for disengaging the engine from the transmission A pe eee PEDAL Clutches are used in devices with two rotating shafts
10. om the spinning engine ENGAGED 14 WV INFINITE The clutch applies and removes engine torque from the input shaft When the clutch pedal is released the springs push the pressure plate against the clutch disc which in turn presses against the flywheel This locks the engine to the transmission input shaft causing the engine and transmission input shaft to spin at the same speed Note the springs in the clutch disc these springs help to isolate the transmission from the shock of the clutch engaging The lines cut in the disc assist in breaking any vacuum that could cause the disc to stick to the flywheel or pressure plate Flywheel The flywheel is a fairly large wheel that is attached to the crankshaft It provides the momentum to keep the crankshaft turning between cylinder firings Clutch cover The flywheel is the base for the entire clutch attachment The side of the flywheel where the clutch attaches is a smooth surface which is used for friction between the flywheel and pressure plate The clutch disc is sandwiched in between the pressure plate and flywheel A bushing called the pilot bushing is installed in a hole in the center of the crankshaft The bronze bushing is used to support the end of the input shaft on rear wheel drive manual transmissions Around the flywheel is the ring gear which the starter motor engages The ring gear then mechanically turns the engine when the ignition key is turned to the sta
11. oupling sleeve splined to the hub does this Forward Gears The transmission changes the ratio of the engine speed and the wheels by connecting gears in various combinations For strength and quiet operation all forward gears are helical cut The helical cut distributes the force more evenly across the gear face Gear Ratio Anytime rotational motion takes place gears are used to maintain a rotational speed Gears are used to n Increase or decrease the speed of rotation m Reverse the direction of rotation Keep the rotation of two axes synchronized m Amplify torque WV INFINITE In the above figure two gears rotate in opposite directions with the smaller gear rotating at two to three times the speed of the larger gear The fact that one gear spins twice as fast as the other is due to the gear ratio The diameter of the gear on the left is approximately three times that of the gear on the right The gear ratio is therefore 3 1 If both gears have the same diameter they would rotate at the same speed 1 to 1 in opposite directions WV INFINITE Transmission gears have teeth rather than smooth edges The teeth have three advantages 1 They prevent slippage between the gears 2 They make it possible to determine exact gear ratios Counting the teeth in the gears and then dividing the number of teeth in the larger gear by the number of teeth in the smaller gear determines the gear ra
12. rt position 15 WV INFINITE Dual Mass Flywheel and Clutch Starting in 2002 the QR25 and VO35DE engines began using a newly designed Dual Mass Flywheel Design of the dual mass flywheel reduces drivetrain noise and vibrations PTN154 This flywheel design removes the dampening springs from the clutch disc and incorporates an arc spring directly into the flywheel When removing the dual mass flywheel from the QR25 motor it s necessary to use the Torque Plus T50 tool Note Refer to the appropriate service manual and ASIST for the correct procedures associated with testing the flywheel rotation movement anytime the clutch is replaced or the flywheel is removed from the engine When reinstalling the flywheel on the VQ35 engine pay close attention to the flywheel alignment dowel pin location Incorrect flywheel installation will result in a no start condition or a rough running engine The crank position sensor identifies TDC from the flywheel and crank position sensor May June 2002 Tech Talk pg 13 and S I R volume 102 contain additional information on flywheel indexing 16
13. tio One example of this would be 60 teeth on one gear and 20 on the other The gear ratio when these two gears are connected together is 3 1 3 The teeth make it so that slight imperfections in the actual diameter and circumference of two gears don t matter The number of teeth control the gear ratios even if the diameters are a bit off Transmission gear ratios for each gear are determined by the need of the vehicle Lower gears have higher gear ratios 6 to 1 which improve the performance off the line Higher gears have lower ratios 2 to 1 for improved fuel economy at higher speeds Note Gear ratios take into consideration the final drive when determining the total gear ratio Internal Components Check Balls and Springs The check balls and springs serve several purposes First they prevent the transmission from engaging two gears at one time The detent or cutout in the shift rod blocks out any other rod once the shift rod begins moving The check ball fits into the cutout or detent in the shift rod WV INFINITE Second they assist in keeping the transmission gear engaged once It s been selected Third a straight un scored and properly aligned shift rod assists with smooth engagement of each gear The check ball and detent in the shift rod hold the shift rod in neutral or in gear because of spring pressure applied to the ball by the check spring ST Synchronizer Hub Coupling Sleeve Shift Inserts and
14. wer to accelerate from a standstill The input shaft drives the counter shaft When the shift coupling sleeve locks one gear to the mainshaft then the output shaft spins at a rate equivalent to the ratio of the gearing The torque multiplication comes into play when looking at the twisting force on the driveshaft to get the vehicle moving For example a first gear ratio of 3 794 1 and an engine which produces 274 lb ft of torque will put around 1039 lb ft of twisting force onto the driveshaft 274 lb ft x 3 794 1039 5 lb ft In first gear the engine s torque is multiplied or increased 3 794 times The higher the ratio 6 to 1 the more torque but the slower the drive wheels turn First gear connects the engine power to the drive wheels via a pair of reduction gear sets which gives increased power and reduced wheel speed when the car begins moving In 1st gear the engine turns at a much higher rom than the transmission output shaft 12 Ie INFINITE Conversely the same thing occurs in each of the other gears 2nd gear in a 6 speed rear wheel drive transmission multiplies the torque 2 324 times Fifth gear has a gear ratio of 1 00 1 This means there is no torque multiplication The output shaft turns at the exact same rpm as the input shaft When sixth gear is selected the ratio is less than 1 00 1 In actuality the output shaft turns at a higher rate of speed than the input shaft Note When cruising at hi
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