engine Seat Altea 2007 Manual Online

If and when261
Safety First
Operating instructions
Tips and Maintenance
Te c h n i c a l D a t a
Towing and tow-startingTo w - s t a r t i n g
The use of jump leads is preferable to tow-starting.We recommend that you do not tow-start your vehicle. Jump-starting
is preferable ⇒page 258.
However, if your vehicle has to be tow-started:
–Engage the 2
nd or the 3
rd gear.
– Keep the clutch pressed down.
– Switch on the ignition.
– Once both vehicles are mo ving, release the clutch.
– As soon as the engine starts, press the clutch and move the gear lever into neutral. This helps to prevent driving into the towing
vehicle.
WARNING
The risk of accidents is high when tow-starting. The vehicle being towed
can easily collide with the towing vehicle.
Caution
When tow-starting, fuel could enter the catalytic converter and damage it.
Towing eyesPlease observe the following points if you use a tow-rope:
Fig. 201 The front right
section of the vehicle:
Fitting the front towing
eyeFig. 202 Fitting the
towing eye to the rear of
the vehicle
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If and when
262
Notes for the driver of the towing vehicle
– Drive slowly at first until the to w-rope is taut. Then accelerate
gradually.
– Begin and change gears cautiously. If you are driving an auto- matic vehicle, accelerate gently.
– Remember that the brake servo and power steering are not working in the vehicle you are towing. Brake earlier than you
would normally, but with a more gentle pressure on the brake.
Notes for the driver of the towed vehicle
– Ensure that the tow-rope remains taut at all times when towing.
Fitting the towing eye
– Take the towing ring from the onboard tools.
– Pull the lower front cover down and leave the cover hanging on the vehicle.
– Remove the cover of the screw hole, insert a screwdriver into the lower slot and lever gently.
– Screw the towing eye as shown by arrow anti-clockwise to the
limit position in the front ⇒page 261, fig. 201 or rear
⇒ page 261, fig. 202 threaded hole.Tow-rope or tow-bar
It is easier and safer to tow a vehicle with a tow-bar. You should only use a
tow-rope if you do not have a tow-bar.
A tow-rope should be slightly elastic to reduce the loading on both vehicles.
It is advisable to use a tow-rope made of synthetic fibre or similarly elastic
material. Attach the tow-rope or the tow-bar only to the towing eyes provided or a
towing bracket.
Driving style
Towing requires some experience, espec
ially when using a tow-rope. Both
drivers should be familiar with the te chnique required for towing. Inexperi-
enced drivers should not attempt to tow-start or tow away another vehicle.
Do not pull too hard with the towing vehicle and take care to avoid jerking the
tow-rope. When towing on an unpaved road, there is always a risk of over-
loading and damaging the anchorage points.
The ignition of the vehicle being towed must be switched on to prevent the
steering wheel from locking and also to allow the use of the turn signals,
horn, windscreen wipers and washers.
As the brake servo does not work if the engine is not running, you must apply
considerably more pressure to the brake pedal than you normally would.
As the power assisted steering does not work if the engine is not running, you
will need more strength to steer than you normally would.
Towing vehicles with an automatic gearbox
•
Put the selector lever into position “N”.
•
Do not drive faster than 50 km/h when towing a vehicle.
•
Do not tow further than 50 km.
•
If a breakdown vehicle is used, the vehicle must be towed with the front
wheels raised.Note
•
Observe legal requirements when towing or tow-starting.
•
Switch on the hazard warning lights of both vehicles. However, observe
any regulations to the contrary.
•
For technical reasons, vehicles with an automatic gearbox must not be
tow-started.
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General notes on the technical data 267
Safety First
Operating instructions
Tips and Maintenance
Te c h n i c a l D a t a
Te c h n i c a l D a t aGeneral notes on the technical dataWhat you should be aware ofGeneral notes
All data in the official vehicle documents take precedence over this data.All data in these documents are valid for the basic model as offered in Spain.
The vehicle data card included in the inspection and maintenance schedule
in the vehicles registration documents show which engine is installed in the
vehicle. The figures may be different if addition
al equipment is fitted, for different
models, for special vehicles and for other countries.
Abbreviations used in this paragraph of the Technical Data Abbreviation MeaningkW Kilowatt, engine power measurement.
bhp Brake horse power, formerly used to denote engine power
at rpm Revolutions per minute - engine speed. Nm Newton metres, unit of engine torque.
l/100 km Fuel consumption in litres per 100 kilometres g/km Carbon dioxide emission s in grams per kilometre.
CO
2
Carbon dioxide
CN Cetane number, indication of the ignition quality of the diesel.
RON Research octane number, indication of the knock resistance of petrol.
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General notes on the technical data
268Vehicle identification data
The most important data are given on the type plate and the
vehicle data sticker.Vehicles for certain export countries do not have a model plate.
Type plate
The type plate is located on the left rib inside the engine compartment.
Vehicle identification number
The vehicle identification number (chass is number) can be read from outside
the vehicle through a viewer in the windscreen. This is located on the left-
hand side of the vehicle in the lower area of the windscreen. It is also located
on the right-hand side of the engine compartment. Vehicle data
The data sticker is placed on the inside of the spare wheel recess in the
luggage compartment.
The following information can be found in the vehicle information
⇒fig. 207 :
This vehicle data is also contained in the Service Schedule. Production control number
Vehicle identification number (chassis number)
Model code number
Model designation / engine power output
Engine and gearbox code letters
Paint number / interior trim code
Optional equipment codes
Consumption
CO
2 emissions
The information given in numbers 2 to 9 are also shown in the Service
Schedule.
CO emissions and consumption
2
Consumption (l/100 km) / CO
2 Emissions (g/km) urban
Consumption (l/100 km) / CO2 Emissions (g/km) motorway
Consumption (l/100 km) / CO2 Emissions (g/km) mixed
Fig. 207 Vehicle data
sticker – luggage
compartment
A1A2A3A4A5A6A7A8A9AAABAC
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General notes on the technical data 269
Safety First
Operating instructions
Tips and Maintenance
Te c h n i c a l D a t a
How are the figures measured?Fuel consumption
The consumption and emission details shown on the vehi cle data sticker differ from one vehicle to another.The figures for fuel consumption and CO
2 emissions of the vehicle are also
found on the vehicle data sticker.
The fuel consumption and emissions figures given are based on the weight
category of the car, which is determined according to the engine/gearbox
combination and the equipment fitted. The consumption and emission figures are calculated in accordance with the
EC test requirements 1999/100/EC. The
se test requirements specify a real-
istic test method based on normal everyday driving.
The following test conditions are applied:
Note
•
Actual consumption may vary from quoted test values, depending on
personal driving style, road and traffic conditions, the weather and the condi-
tion of the vehicle. Urban cycle
The urban cycle starts with an engine cold start. City driving is then simulated.
Extra urban cycle In the extra urban cycle the vehicle undergoes frequent acceleration
and braking in all gears, as in normal everyday driving. The
road speed ranges from 0 to 120 km/h.
Combined The average overall consumption is calculat
ed with a weighting of around 37% for the urban cycle and 63% for the extra urban
cycle.
CO2 emissions The exhaust gases are collected during both driving cycles to calculate carbon dioxide emissions. The gas composition is then
analysed to evaluate the CO
2 content and other emissions.
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Technical Data
272Te c h n i c a l D a t aChecking fluid levelsFrom time to time, the levels of the different fluids in the
vehicle must be checked. Never fi ll with incorrect fluids, to do
so may cause serious damage to the engine.
Radiator expansion tank
Windscreen washer fluid reservoir
Engine oil filler cap
Engine oil dipstick
Brake fluid reservoir
Vehicle battery (underneath the cover)
The checking and replenishment of the service fluids are carried out on the
components mentioned above. These operations are described in the
⇒ page 208. Overview
Further explanations, instructions and restrictions on the technical data are
contained as of
⇒page 267.
Fig. 208 Diagram for the
location of the various
elements
A1A2A3A4A5A6
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Technical Data273
Safety First
Operating instructions
Tips and Maintenance
Te c h n i c a l D a t a
Petrol engine 1.4 litre 63 kW (86 bhp)General engine data
Performance figures
Weights
Trailer weightsPower output in kW (bhp)
rpm 63 (86)/ 5000
Maximum torque in Nm at rpm 132/ 3800
No. of cylinders, capacity in cm
3
4/ 1390
Compression 10,5 ± 0,3
Fuel Premium unleaded, 95 RON
Maximum speed in km/h 169
Acceleration from 0-80 km/h in sec. 9,7
Acceleration from 0-100 km/h in sec. 14,8
Gross vehicle weight in kg 1886
Weight in working order (with driver) in kg 1366
Gross axle weight, front in kg 940
Gross axle weight, rear in kg 984
Permitted roof load in kg 75
With no brakes, gradients up to 12% 680
With brakes, gradients up to 12% 1200
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Technical Data
274Engine oil capacityPetrol engine 1.6 litre 75 kW (102 bhp)General engine data
Performance figures
Weights Approximate engine oil capacity with oil filter change
3,2 litres
Power output in kW (bhp) rpm 75 (102)/ 5600
Maximum torque in Nm at rpm 148/ 3800
No. of cylinders, capacity in cm
3
4/ 1595
Compression 10,5 ± 0,5
Fuel 95 super RON
a)
a)Research- Octane- Number = Measure of the predetonation power of the petrol.Maximum speed in km/h 181
Acceleration from 0-80 km/h in sec. 8,6
Acceleration from 0-100 km/h in sec. 12,8
Gross vehicle weight in kg 1920
Weight in working order (with driver) in kg 1395
Gross axle weight, front in kg 967
Gross axle weight, rear in kg 980
Permitted roof load in kg 75
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Technical Data275
Safety First
Operating instructions
Tips and Maintenance
Te c h n i c a l D a t a
Trailer weights
Engine oil capacity
Petrol engine 2.0 litre 110 kW (150 hp). ManualGeneral engine data
Performance figures
With no brakes, gradients up to 12%
690
With brakes, gradients up to 12% 1200
Approximate engine oil capacity with oil filter change 4,8 litres
Power output in kW (bhp) rpm 110 (150)/ 6000
Maximum torque in Nm at rpm 200/ 3500
No. of cylinders, capacity in cm
3
4/ 1984
Compression 11,5 - 0,5
Fuel 98 RON
a)/ 95 RON
b)
a)Research- Octane- Number = Measure of the predetonation power of the petrol.b)Slight power lossMaximum speed in km/h 206
Acceleration from 0-80 km/h in sec. 6,5
Acceleration from 0-100 km/h in sec. 9,6
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Technical Data
276Weights
Trailer weights
Engine oil capacityPetrol engine 2.0 litre 110 kW (150 hp). AutomaticGeneral engine data Gross vehicle weight
in kg 1970
Weight in working order (with driver) in kg 1450
Gross axle weight, front in kg 1015
Gross axle weight, rear in kg 980
Permitted roof load in kg 75
With no brakes, gradients up to 12% 720
With brakes, gradients up to 12% 1400
Approximate engine oil capacity with oil filter change 5,3 litres
Power output in kW (bhp) rpm 110 (150)/ 6000
Maximum torque in Nm at rpm 200/ 3500
No. of cylinders, capacity in cm
3
4/ 1984
Compression 11,5 - 0,5
Fuel 98 RON
a)/ 95 RON
b)
a)Research- Octane- Number = Measure of the predetonation power of the petrol.b)Slight power loss
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