Hello Mauro,
Apologies for the delay.
I have attached a picture of the specifications suggested in the Haynes manual for our cars.
On your car the front camber is -0.09° on the left and +1.26° on the right. The spec is 0° 20’ to 0° 30’ positive. Now please note the specs I’m providing are in degrees and minutes, which means the value is out of 60, as in 60 minutes to 1 degree.
Your values have the decimal point so I suspect that they are measured in decimal degrees which takes the 60 minute value and converts them to a value out of 100. So to give you an example 20 minutes of positive camber which is the spec for the front of our cars equates to 20 out of 60, which in decimal degrees would be 33 out of 100.
I hope I haven’t lost you with this?
Most wheel alignment machines can have their values changed from reading in degrees and minutes to decimal degrees and vice versa. It can get confusing for an operator who works in decimal degrees when they see a degrees and minutes value of 1° 50’ as they see the 50 out of 100, when it’s actually 50 out of 60 so almost 2 degrees. Anyway I digress.
Back to your car. The reason your car is pulling to the right is because you have too much positive camber on the right front wheel (1.26). This is adjustable via an eccentric cam on the top of the kingpin mount. Both the front cambers need to be between +0°20 and +0°30’ (in Decimal Degrees this would be +0.33 to +0.50)
Also the toe in value for the front is much lower than you have stated, it shows it in the manual as +1.0mm to +3.0mm. This value too can be converted to an angular measurement in degrees and minutes or decimal degrees, but that creates the issue of where the metric value was measured because the further out you measure the wheel angle, the metric value will change. To give you and example, our cars have 14 inch wheels, if the toe value of 1.0 to 3.0 mm of toe is measured at the wheel diameter it would roughly equate to 3 to 9 minutes of Toe in. This concept is very hard to explain but essentially angular measurements never change no matter where along the lines of axis you measure them, but metric measurements change depending on whereabouts on the axis you measure them and they will continue to increase the further out you take that measurement.
I hope the above makes sense to you?
So back to your car, the rear camber on the right is quite high and to the naked eye would be quite visible (top of the wheel sitting out further than the bottom when viewed from the front or back of the car looking alongside). What are your ride heights like? Is the right rear sitting higher than the left? I measure this from the guard lip to the centre of the wheel. If there’s a difference then your right ride height will be higher and this needs to be rectified by either replacing the top spring rubber on the right side with a thinner one or looking and the mounting position of the lower spring plate as this also determines ride height. This is will also play a part in the vehicle pulling to the right, but not as much as the front camber.
One thing I haven’t seen you report is front caster. In the spec this is 3°30’ for non power steering cars and 4°00’ for power steering cars with a 15’ tolerance either way. Your car being LHD would be ideally set up with slightly more caster on the right side to compensate for the crown of the road. As in the road always slopes to the right in your case for drainage (for me in Australia it’s the opposite).
Caster is adjustable by loosening the “D” shackle sway bar mounts and turning the front eccentric bolt to either pull the subframe forward or push it back. When this is adjusted the transmission mount bolt, tailshaft centre slip joint nut and cross brace on the subframe all need to loosened so the subframe can be moved.
Caster is the main angle for straight line stability at speed, correct vehicle tracking and what I call Returnability, the way the steering self centres after turning a tight corner.
The 3 angles of Caster, Camber and Toe all need to be checked. Simply adjusting the Toe on our vehicles is not sufficient.
If the main Caster adjustment needs to be fine tuned, there is also a small adjustment inside the eccentric bolt on top of the kingpin that is utilised to adjust Camber. I usually do not need to adjust this as one it is difficult to do so and two you can usually get the Caster angle good by utilising the front sway bar eccentrics.
The reason I questioned both your front and rear cambers being high was I suspect the hoist may not be level as the values may be leaning to right, as in the hoist may be leaning to the right. This may not be the case, but it may be that your car needs to be rectified first. The front camber on your car is easily adjustable, the rear not so much. A good wheel alignment needs a level hoist, both front to rear and left to right.
I know this is a lot to take in, but I hope you understand what I’m trying to explain.
If you need anything else, please don’t hesitate to ask.
Doug
