SUSPENSION - Terminology
Glossary of terms used in the suspension on the mini.
The Mini has consistently more than proven its capability in competition with very limited and cost-effective modifications based on the standard equipment fitted. Having first ensured the bodyshell (in reality little more than a complex bracket to hold suspension and driver securely in place) is well sorted out by removing all cruddy or rotten metalwork and into something like straight, square and strong we, maximising suspension stability and geometry pays dividends in the enjoyment that is driving a Mini. Understanding what the individual ingredients are helps in pursuing what you want from the experience.
Smooth Mover
Good, reliable, and consistent handling is dependent on a number of factors. At this stage, we’re concerned with clapped out or badly adjusted suspension components. Stiff, seized, partially seized or slack, sloppy, worn out suspension components will cause inconsistent, wayward, confusing and – more important
SUSPENSION - Basic Priorities
Suspension - Basic priorities for improved suspension performance.
Having studied the 'Suspension - Terminology' article you should now have a ‘job description’ understanding of previously possibly un-comprehended words associated with suspension control. Now - what to do with it? The first thing we need to establish is an order of priority before distributing hard-earned 'beer vouchers' in all directions. Fortunately, this is a good deal less complicated than is generally believed.
Despite the five main factors that control the front suspension geometry – kingpin inclination, caster angle, camber angle, track, and bump-steer – we are only really able to alter three of those easily. King-pin inclination is non-adjustable, as it’s a feature of where the swivel-pins are mounted on the hub at the factory. It will alter as other adjustments are made, but we can do nothing easily about correcting/optimising it independently, as these are fixed in position on the swivel hub.
Idler Gear - Setting End Float
A fairly crucial part of how the idler gear operates is its tolerances and
running clearances.
part numbers: 22A1545, 22A1546, 22A1547, 22A1548, 22A1549, DAM4822, DAM4823, DAM4824, DAM4825, GUG705563GM, AAU8424, ADU6033, CCN110, 2A3643, 22A152, 53K547,
Terminology:
DTI - Dial Test Indicator
End float is a continual problem as folk either ignore it through ignorance or lack of accessible information on how to do it, or belief special tools are needed. Also, later factory assembled engine units (from about 1992 onwards) were built up using whatever shims and thrust washers were available, since Rover were not making regular orders for all shim/washer sizes due to the forthcoming end of production. Consequently, many units left Rover with incorrect (usually too big) clearances. The idler gear was no exception.
Too tight a clearance and the idler gear will either seize solid when it gets hot, or destroy the thrust washer thrust faces in the comparably soft aluminium gearbox and t
Engine - 1098, Initial Tuning
The 1098 (1100) engine has had a lot of bad press over the years - largely because of early experiences when trying to tune the motor brought about problems with the then standard components available - they simply were not up to taking any real punishment as experienced in racing.
See bottom for useful part numbers.
This fallacy was handed down generation to generation like some scary bedtime story. Those that have used the unit in more recent years, employing more capable componentry know what a demon motor this can be. Following is an initial look at what it will do with a little modification - the results compared directly with it's smaller brother the 998 for illustration of the potential.
Abridged History
When the Mini was first conceived it ustilised a de-stroked version of the then quite remarkable 948cc A-series engine.
CHANGING FROM DYNAMO TO ALTERNATOR
Completing this change successfully, easily and neatly is pretty straightforward on a Mini. The alternator contains the regulator and cut out functions within it’s casing, so makes the regulator box used with a dynamo redundant.
Part No Applications: GEU205, GEU205MS, GEU207, GXE2297
However, it is useful to retain the box itself and it’s connectors. It acts as a terminal box to make the installation neat, avoiding the messy and awkward soldering/taping together bunches of wires. It also maintains a period look, plus makes reversal easy should this be needed in the future.
Disconnect the battery and remove the black regulator box from the car - taking care to make a note of or label each wire removed with it’s original terminal connection. Fit the alternator using the necessary rear support bracket (part no. 12G1053) as the alter
Cooling - Controlling water temperature
The introduction of the Cooper S proved to be a testing time for the Mini’s systems, but conveniently provide a guideline as to what the standard cooling system was capable of - that used on the ‘S’ was marginal to say the least!
It wasn’t uncommon for many S’s to spew water from their overflow pipes when ever it was doing anything other than a steady 70 miles an hour, over-heating eventually caused through water loss. Perhaps some deductions can be made from the following…
There are a number of elements involved in controlling water temperature. Some confusion over what to sort first when over-heating occurs leads to wasted time and money, and possibly terminal engine damage. Maximum power is usually generated from A-series engines at 70 – 75 degrees C (160 to 170 degrees F). The main problem with this on a road car is the oil’s unlikely to get hot enough for maximum performance – the results outlined previously.
Cylinder head - Min Tec head range
I'm often asked about the range of cylinder heads I do for Mini Spares/Mini Mania, so here's the low-down…
Although the following range of heads accommodate specific fitments - like pre-1992 where by-pass hoses and heater take-offs on the clutch end of the head are used and post-1992 where neither of these exist, and on SPi (single point injection) heads where they don't usually have a threaded hole for the temperature sender - in reality it is easy to convert almost any of them to fit any other engine since holes are easily blocked off - or by-pass hoses not used, water pumps blanked off and drilled thermostats fitted (see articles on cooling/engine transplants). A list of which is what and what to do to each to convert is at the end of this article.
For more in-depth descriptions of the head specs, see article 'Cylinder head - About Min Tec Heads' - basically the valve sizes used have been decided on after extensive and in-depth flow test...
Engine transplants - Ancillary parts
Engine mountings are a whizz to fit as the Mini ones fit straight onto any of the other units. Just remove the Metro/AA/1300GT ones and swop the mounts over from the Mini unit. If they’re split, fit new ones, they’re cheap.
Terminology -
BBU - Big Bore Unit
SBU - Small Bore Unit
NOTE: This information covers transplanting large-bore engine units into small-bore engined Minis. For further information for exact differences between pre-A+ and A+ units, see relevant separate article.
Engine mountings and steady bars.
Engine mountings are a whizz to fit as the Mini ones fit straight onto any of the other units. Just remove the Metro/AA/1300GT ones and swop the mounts over from the Mini unit. If they’re split, fit new ones, they’re cheap. If using the AA/1300GT unit - it's advisable to cut off the 'wings' on the front plate that carried the engine mounts on the radiator end.
Engine transplants - gearbox information
A subject worthy of an entire book to explain the whys and wherefores, and also causes much consternation on the part of the transplanter.
Terminology -
BBU - Big Bore Unit
SBU - Small Bore Unit
FD - Final Drive (diff ratio)
A subject worthy of an entire book to explain the whys and wherefores, and also causes much consternation on the part of the transplanter. Much confusion’s spread over which gearbox has the best ratios, is best to use, and with which FD. For a detailed account on this and covering all gearboxes fitted as standard to the Mini, see the relevant separate articles 'Gearbox - Standard production gearbox types'.
Fortunately, when selecting a complete engine and gearbox unit from a Metro, the gearbox will pretty much suit the engine and be easily transplantable whole into the Mini. It shares exactly the same rod-change linkage as the Mini. Difficulties only arise when fitting a rod-change gearbox into a pre-1973 Mini that has the old remote-type gear-change mechan
Lubrication - Oil, what it does and how
It's criminal. Folk spend fortunes putting together super-sonic motors, only to skimp on the oil they use. Why? Oil's oil right? Wrong. Even if it's a standard engine, it deserves TLC considering it's extremely hostile working environment.
Oil is literally the engine's life-blood. The opening few sentences are astonishingly true. Oil isn't there just to prevent all metal components within an engine fusing together in the first few seconds of running, creating a total melt down of Chernobyl proportions. It's an intricate blending of chemicals to protect the engine as a whole.
The most commonly uttered statement about engine wear is most wear occurs within the first 10 minutes from start up when cold. True if cheap chip fat oil is used.In performance and race engines, a considerable amount of wear is created by heat, load, speed, and pressure. Again, cheapy oil won't give protection here.
Lubrication - Temperature critical
The correct running temperature of the oil is perhaps even more important than the water/coolant temperatures - so let us consider how to control them.
Mainly because it seems to be the most misunderstood of the whole process, and oil cooler fitment almost a reflex when over-heating occurs where a tuned engine of any type is concerned. And in many cases on standard production road cars for that matter.
Almost since the appearance of the immortal Cooper S, fitting an oil cooler has been the essential thing to do to any tuned Mini without any comprehension why. The original fitment was necessary because oil and bearing technology wasn't too advanced. Asking an oil of yester-year to cope with lubricating an engine at racing speeds, and a gearbox pushed their performance to the edge of their all too narrow capability, so extreme control over their working environment was essential for reliability. Hence oil cooler fitment.
Performance Tuning - Overall considerations
Throughout my admittedly fairly short journalistic career writing for the specialist Mini magazines I've tried my very best to enlighten as many of you as possible about the most common topics put forward by others, but within a magazine there's always limited space and there's always the desire for more.
Primary Gear - Setting end float
A fairly crucial part of how the primary gear operates is its tolerances and running clearances. End float is a continual problem as folk either ignore it through ignorance or lack of accessible information on how to do it, or belief special tools are needed.
Terminology: DTI - Dial Test Indicator Also, later factory assembled engine units (from about 1992 onwards) were built up using whatever thrust washers were available, since Rover were not making regular orders for all shim/washer sizes due to the forthcoming end of production. Consequently, many units left Rover with incorrect (usually too big) clearances. The primary gear was no exception. Too much end float and clutch disengagement is adversely affected, the gear floating up and down the crankshaft in unison with the clutch plate. The result is a graunching gear change since the plate isn't clearing the flywheel and pressure plate surfaces fully. Too little end float and the gear is likely to be pinched tight as it
C-ARA4442, C-ARA4443, C-ARA44443 HI PERFORMANCE RADIATORS
These radiators were developed to provide superior cooling capability over the standard equipment where non standard engines are being used.
C-STN17 - MINI SPARES STAGE ONE KIT (998cc only)
Beware: Instructions must be read carefully.
Although the 998/1300 stage one kits are bolt on parts easily fitted by any person with mechanical knowledge, the following must be understood.
MINI ENGINE STABILISER MSSK1000
1. This is an auxiliary steady bar kit and should not be used to replace any other standard fitment parts that have broken.
2. Remove the radiator support bracket from the radiator and the thermostat housing.
3. Slacken the nut retaining the exhaust manifold at the radiator end of the engine.
4. Remove the three bolts securing the bulkhead blanking plate as shown in the diagram. If the car has a heater pipe as indicated on the diagram then this should be disconnected at the engine.
MINI ENGINE STABILISER MSSK1300
1. This is an auxiliary steady bar kit and should not be used to replace any other standard fitment parts that have broken.
2. Remove the radiator support bracket from the radiator and the thermostat housing.
3. Slacken the nut retaining the exhaust manifold at the radiator end of the engine. Remove the exhaust manifold stud by tighterning another nut against the original manifold nut and then screwing the nut out of the cylinder head.
4. Remove the three bolts securing the bulkhead blanking plate as shown in the diagram. If the car has a heater pipe as indicated on the diagram then this should be disconnected at the engine.
C-AHT772 (3.75”, C-AHT773 (5”), C-AHT774 (6”) WEBER INLET MANIFOLD KIT
Build the manifold up before fitting to the car. The two spherical ended joints screw into the inlet manifold using the flat washers and nuts to lock them into place. The 5/16” rod is a tight fit into the two joints and care must be taken when fitting. The two linkage brackets fit either end of the 5/16” rod outside of the spherical joints using the 5mm nut and bolt to secure.
Fit the small rose joints either end of the threaded rod and fit to the throttle linkage on the side required for the Weber carb being used.
The 5” metal bar fits in a vertical position to the manifold, secured on the original manifold studs when fitting to the engine.
Fitting instructions for Remote Vacuum Servo Units Types 6 and 7
General fitting instructions
To ensure correct installation of the AP Braking remote vacuum servo unit, thoroughly read and adhere to the fitting instructions prior to carrying out any work on the vehicle. Introduction The vacuum servo unit is incorporated into the hydraulic braking system, remote from the master cylinder, as an intermediate stage operating between the master cylinder and the brake assemblies. The two main parts of the servo unit consist of the vacuum servo mechanism and the hydraulic slave cylinder assembly.
These component parts are bolted together so that the slave cylinder piston is in line with, and is operated by, the servo push rod. A plastic no-return valve is fitted into the vacuum shell and an integral air cleaner is incorporated to prevent foreign matter entering the air control valve chamber. The servo unit is designed to give no assistance with very light brake application. In the absence of servo assistance due to loss of vacuum, an unres...
Broken Engine Steady?
Every Mini owner at some point will have an issue with a broken bolt or a stripped thread, due to the fine thread on the majority of bolts fitted to these cars. Whilst most are an easy repair, such as bumper bolts, others can be a lot more difficult to repair.
An ideal example of this is the bolt for the ....
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