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LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2) LV26 final drive systems (2)

kap all phase & 6/11/03 11:36 am Page 21 Student Workbook LV26 Final Drive Systems (2) LV26/SWB Student Workbook for Technical Certificates in Light Vehicle Maintenance and Repair MODULE LV26 FINAL DRIVE SYSTEMS (2) Contents Page Page … Overview Final Drives Differential: The requirement The real thing 6 Limited Slip Differential: Construction Function 10 10 Inspection and Test Methods: Leaking differential Noisy operation Shortage of oil Improper tooth contact Damaged gear Incorrect preload of drive pinion bearing Wear or damage of the drive pinion bearings Progress check -1Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue 12 12 12 13 13 14 14 15 16 -2Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Overview A vehicle’s final drive system is in effect two assemblies combined – the final drive gear set and the differential The final drive gear’s primary function is to further multiply torque received from the gearbox and direct this to the differential The differential distributes this torque to the driven wheels but also allows a difference in wheel speed to occur between these during certain conditions (such as cornering) It can be seen from this that the final drive differential assembly performs two distinct tasks and should therefore be referred to using its full name, rather than just ‘diff’ INPUT SHAFT Input shaft Final drive FINAL DRIVE PINION GEAR pinion Output shaft OUTPUT SHAFT Final drive ring gear The diagram on the above left shows the final drive gear set as used in a vehicle equipped with a transversely mounted transmission (across the width of the vehicle) It can be seen that the gear assembly is a simple underdrive gear – the drive pinion receiving its drive from the gearbox output shaft and acting as the driver in this assembly, transferring torque to the driven assembly – the ring gear, as shown in the diagram above right As the final drive pinion receives its torque from the main gearbox ratios via a shaft, it compounds the selected gear ratio The ring gear then transfers this drive torque to the differential unit Further details on gear trains can be found in Phase Manual Transmission Systems LV14 -3Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Final Drives Spiral bevel Bevel gears Hypoid spiral bevel Final drives are of two distinct types – the bevel gear and the helical gear The type used is very much dictated by the vehicle’s drive configuration A front engine rear wheel drive vehicle will use a bevel gear type (as long as the engine is longitudinally mounted) as the drive from the gearbox runs from front to rear on the vehicle, there is a requirement to change the drive direction through 90 degrees out to the driven wheels A bevel gear assembly lends itself to this task perfectly If the vehicle is a front engined front wheel drive or perhaps a rear/mid engined rear wheel drive, it is most likely that a helical gear set will be used as there is no requirement to achieve a drive direction change (transversely mounted gearbox) The diagram shows the gear sets suitable for the previously mentioned drive arrangements that are a variation on this theme The spiral bevel gear assembly is a standard bevel gear arrangement whose teeth have been cut with a pronounced helix (spiral shape) This arrangement increases the area of tooth contact between the pinion and the ring gear (sometimes referred to as a crown wheel) therefore increasing its ability to transfer torque without risk of damage or excessive wear occuring The rolling action of the teeth also considerably reduces noise The hypoid spiral bevel gear assembly is now used almost universally where the drive layout dictates the need for drive direction change It is identical to the spiral bevel with one exception – the pinion gear is lowered to a point beneath the centre line of the ring gear This further increases tooth contact area with all the advantages that we now associate with this In both instances the final drive gear set compounds the selected gear ratio to further increase torque (and reduce driven speed) All drive from the gearbox has to pass through the final drive assembly, so it can be seen that every gear ratio available will be affected by the final drive ratio Motor sport teams often exploit this fact to bring about a quick and relatively easy change of ratios throughout the vehicles transmission system to suit various conditions such as: • high speed tracks – smaller final drive ratio for increased top speed • low speed tracks – higher final drive ratio for faster acceleration -4- Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue The top diagram shows a helical cut gear suitable for transversly mounted gearboxes A helical gear is one whose teeth have been cut at an angle and this has the effect again of increasing tooth contact area and reducing noise It does unfortunately produce end-thrust as a result of this angular cut (the gears try to force themselves out of mesh in the axial direction) This end thrust has to be contained by the gearbox casing and if the torque is considerable, this casing will have to be very strong and will therefore be heavy A point is often reached where the torque (and end-thrust associated with this) is so large that straight cut gears (spur gears) have to be used, which are very noisy However, the kind of torque figures that we are talking about are normally only found in the motorsport arena and on load carrying vehicles, where noise isn’t such an issue! -5Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Differential The requirement When a vehicle corners, the inside wheels rotate at a slower speed than the outside wheels This is because the inside wheels effectively ‘cut the corner’ and therefore have less distance to travel All wheels are of course attached to the vehicle, therefore in order to keep up with the vehicle the outside wheels will have to turn at an increased speed because of the difference in distance Imagine a line of people ice skating who decide to join hands and rotate around the first person using them as a pivot The further towards the end of the line of people you are, the faster you have to go even though you are all part of the same overall body of people With non driven wheels, this difference in speed is not a problem as these wheels are independent of one another However, with driven wheels this is more of a problem as they are connected together courtesy of the drive shafts and final drive assembly The differential allows for this difference in speed with no loss of drive It should be noted that differences in rotational speed have to be acommodated in instances other than cornering Uneven tyre wear/tyre pressures across the driven axle will result in differences in rolling radii, imperfect road surfaces and road camber – these will all result in differences in rotational speed -6Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue The real thing The above diagram shows a final drive differential assembly as used on a front engine rear wheel drive vehicle It shows this assembly in a condition of ‘no difference in rotational speed’ Drive flow through the assembly will be as follows: Drive from the gearbox is received via the prop shaft onto the drive pinion The drive pinion transfers this drive to the ring gear (crown wheel) Mounted directly onto the ring gear is the differential case (cage) so as the ring gear rotates so does the differential case The differential drive pin is mounted directly into the differential case and rotates with it, taking around the differential pinion gears The differential side gears are directly meshed to these pinions and therefore rotate with them The side gears are splined to the drive shafts/half shafts and therefore the drive is sent directly to the road wheels With equal resistance to rotation at both of these wheels, the differential pinions will rotate with the differential case but not about their own axis (the drive pin) -7Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue The above diagram shows the differential compensating for a difference in required driven wheel speed The flow of drive is identical up to the differential drive pin The differential pinions rotate with this drive pin, but as the differential finds it difficult to rotate the left hand wheel (in this example) due to the larger resistance experienced during a left hand corner manoeuvre, the differential pinions now start to rotate about their own axis and in the process increase the speed of the right hand wheel proportionately It should be noted that differentials have no gear ratio as such; only the final drive has this If you turn a driven wheel by hand with the vehicle on a wheelfree lift, you will often find that the other wheel turns in the opposite direction -8Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Limited Slip Differential On vehicles fitted with a normal differential, driven power will be lost when a vehicle makes a sharp corner or drives over a slippery surface such as mud or ice Additionally, if one of the driven wheels slips into a ditch and completely loses traction all drive will be lost This is because all of the torque will flow to the wheel with least resistance and the wheel still in contact with the ground won’t turn at all Whenever this drive is lost, driving performance will be reduced if not disappear all together The limited slip differential (LSD) is designed to stop this happening The LSD still provides the standard function of the standard differential except it incorporates the additional function of allowing the wheel with grip to still be driven even if the other wheel loses traction -9Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Construction In between the side gears and the differential casing, thrust washers and clutch plates are mounted The clutch plates are internally splined and fit onto flanges coming out of the side of the side gears The thrust washers are fitted into recesses in the differential casing A spring is fitted to press the clutch plates and the thrust washers against each other via the retainer and the side gears in the centre of the construction This means, in effect, the side gears are kept pressed against the differential case (via the thrust washers and clutch plates) by the spring Function During straight ahead driving the left and right driven wheels are revolving at identical speeds The differential case, side gears, pinion gears, thrust washers, clutch plates, retainers and compression spring are all revolving round in one unit as in a standard differential The power flow for straight ahead driving is shown above right -10Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue During cornering, if there was a big difference in the rate by which the left and right driven wheels turn, the rates at which the side gears turn would also vary As they are attached together by the friction between the clutch plates and the thrust washers a frictional torque is created (Frictional torque means the torque transmitted by the friction between two parts) The friction resists this variation in speed and tries to keep them both turning at the same rate It is the amount of friction between the thrust washers and the clutch plates that attempts to keep the wheels revolving at the same speed In the previous example of the one wheel going into a ditch and losing total traction, it is the friction between the thrust washers and plates that drives the wheel along that still remains in contact with the ground In this case the flow of power is shown in the diagram above right -11Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Inspection and Test Methods The inspection and test methods vary depending upon the symptoms of the fault The two main faults that occur are oil leaks from the differential and noisy operation Leaking differential In the event of a leak such as the one shown, a visual examination would be sufficient The seal that is allowing the oil to leak should be replaced If in the event of the leak being left and the repair scheduled for another day, the fluid level should be checked and topped up to the correct point Noisy operation A variety of different faults could cause the differential to become noisy Examples of the possible faults are as follows: • shortage of gear oil • improper tooth contact between ring gear and drive pinion • damaged gear • incorrect preload of drive pinion bearing • wear or damage of drive pinion bearing -12Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Shortage of oil Shortage of oil is easily checked Normally there is a fill hole and a drain hole on the differential The oil should be filled through the highest hole (the fill hole) and pumped in until oil starts to flow out of it When the oil has stopped draining the plug should be tightened Improper tooth contact Improper tooth contact between the ring gear and drive pinion can only be checked with the differential stripped down A coloured paste such as yellow ochre oil paint should by brushed onto the teeth The differential should be loaded (by hand) and the gears turned As the gears act upon each other, the coloured paste will show where the contact patch is The correct contact patch is in the middle height-wise and middle width-wise The diagram above left shows the incorrect contact areas on the teeth If any of these incorrect contact patch areas occur (in the case of incorrect toe or flank contact) the pinion needs to be moved further away from the ring gear This needs to be carried out with a thinner adjusting shim In the event of heel and face contact the pinion needs to be brought closer to the ring gear This is carried out by fitting a wider adjusting shim on the pinion -13Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Damaged gear This is again something that can only be diagnosed with the differential stripped down Although if the oil is drained and the oil inspected, it may be possible to find the chunk of chipped tooth This is a sure sign that the differential needs stripping Once the damaged gear is found it must be replaced Incorrect preload of drive pinion bearing Using a torque meter, measure the preload of the backlash between the drive pinion and ring gear There are often two specifications supplied by the manufacturer, one for a new bearing and another for a used bearing To ensure the bearings are well-seated turn the pinion several times clockwise then anti clockwise before any adjustments are made If the preload is greater than the specification the collapsible bearing spacer will need replacing If the preload is less than the recommended specification tighten the drive pinion nut by the increments shown as specified by the manufacturer (possibly something around the figure of 13Nm) There will also be a maximum torque of the pinion nut If this figure is achieved the nut should be undone and the collapsible spacer replaced Never undo the pinion nut to back the preload off This will lead to there being less than a zero preload which will lead to there being no preload on the bearing and the bearing will fail prematurely -14Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Wear or damage of the drive pinion bearings To check this it will be necessary to check the run out of the companion flange This is carried out with the use of the DTI The radial run out is additionally measured with the DTI If any of these figures are above specification the bearing will need to be replaced -15Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Progress check Answer the following questions: Why is it necessary to fit a differential to a vehicle? What is the advantage of a limited slip differential? What is ring gear backlash? What is flank contact? What is toe contact? -16Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue ... Rights Reserved LV26 Final Drive Systems (2) Issue Overview A vehicle’s final drive system is in effect two assemblies combined – the final drive gear set and the differential The final drive gear’s... Transmission Systems LV14 -3Copyright © Automotive Skills Limited 2003 All Rights Reserved LV26 Final Drive Systems (2) Issue Final Drives Spiral bevel Bevel gears Hypoid spiral bevel Final drives... ‘diff’ INPUT SHAFT Input shaft Final drive FINAL DRIVE PINION GEAR pinion Output shaft OUTPUT SHAFT Final drive ring gear The diagram on the above left shows the final drive gear set as used in a

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