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قديم 02-05-2011, 02:40 AM
cars admire
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مميز Twin Spark engine!!

Alfa Romeo Twin Spark (TS) technology was used first time in Alfa Romeo Grand Prix car in 1914. In the early 1960s it was used in their race cars



Twin Spark engines
Double ignition
The Alfa Romeo Twin Spark technology was developed by Alfa to enable it to achieve a higher power output from its engines and to enable their cars to comply with EC Stage 2 exhaust emissions and noise standards.
The Twin Spark name comes from the fact that there are two spark plugs per cylinder. The second small spark helps to reduce harmful emissions and protects the three-way catalytic converter by ensuring that less unburnt fuel should reach it.
The Twin Spark technology was first introduced in 1985, when the old twin-cam engine from the Alfa 75 was redesigned to incorporate two spark plugs per cylinder (as Alfa had done in the past in various race engines). All Twin Spark engines are 4 'in line' and have been developed with 8 or 16 valves. All cars featuring the Twin Spark engines since the Alfa Romeo 155 use the 16 valves ones. Porsche and Mercedes have also developed engines with two spark plugs per cylinder, but Alfa Romeo is the only one to put two spark plugs and 4 valves per cylinder.





All Twin Spark engines available on the Alfa 145/6 use a 10mm diameter and a 14mm diameter longlife platinum spark plug per cylinder.




These engines also incorporate two devices to improve the performance and the fuel management efficiency: the Camshaft Phase Variator and the variable geometry intake systems (the second one only available for 1.8 and 2.0 versions).
Camshaft Phase Variator
The valve variable timing system allows the camshaft to be shifted into two different angular positions in order to modify the intake valve opening durations.
The Phase Variator is an electro-hydraulic actuator controlled by the injection system that adjusts the angle (or phase) of the air intake camshaft to allow the valve open and close time to advance when the engine RPM exceeds 4300. A similar process is used by Honda and Toyota on their VTEC and VVT-i engines.
Valve timing actuator logic is predetermined so that overlap - that fraction of the engine's operating cycle when both the exhaust and the intake valves are open simultaneously - is shorter at low rpms and with lighter loads, and longer at higher engine speeds when extra power is required.
Variable geometry intake system
This device is managed electronically by the injection system and assures the optimal cylinder air filling at all rpm levels. The intake manifold contains two plastic (nylon reinforced by fiberglass) ducts and use the longer one (560 mm) at low rpms and the shorter one (380 mm) at higher rpms.
This system was presented on the 1.8 and 2.0 TS versions of the Alfa Romeo 156 and adopted at the Alfa 145/146 on 1999. This system gives 4-5 bhp increase in top power and a reduction of 500 rpm at peak torque.
The notable effect that these devices have is that the engine will surge powerfully forward on hitting the 4300 RPM mark, right up to the RPM limiter. On the Alfa 145/6 TS the red line is at 7.000 rpm and the fuel cut-off at about 7.300 rpm.
Another technical features
Cylinder heads with hemispherical combustion chambers that ensures a fast, wide flame front when the air-fuel mixture is ignited.
Cylinder head with a narrow 47 degree V-shaped valve arrangement.
Twin overhead camshafts and four valves per cylinder operated directly by hydraulic tappets.
A lubrication system which uses specially designed jets to spray oil onto the piston crowns, ensuring highly effective cooling.
Automatic belt tensioners which, theoretically, free the engine from frequent maintenance.
Twin balancer shafts system that minimizes the vibration normally associated with inline-4 engines (only for the 2.0 version).





Common faults
Timing Belts
Alfa originally recommends changing cambelts at 120.000 Km but after some premature failures they unofficially recommends changing it at 80.000 km or five years, together with the tensioners. In some countries they recommend changing it every three years.
Phase Variator
Another common fault is the "diesel-noise" from the Twin Spark engines. It's a typical failure of the Phase Variator that produce loss of top power, less power under 3.000 rpm and higher fuel consumption. It also produces the typical "diesel-noise".
The "diesel-noise" will in the beginning last only a few seconds after turning your key to start the engine. But it will last longer and longer. There should be no problem driving with this, you will not damage anything, but it should be fixed together with the cambelt change.

Good variator sound

Bad variator sound

Erratic idle speed
The idle speed of a Twin Spark engine is about 900 rpm. A common fault is that the revolutions ups and down between 500 and 1500 rpm while stays at idle. The cause of this problem could be a faulty idle speed motor or some dirt at the butterfly-valve.
Engine powerloss, missfire
Sometimes, in cold starts, the car seems to have a bit of a problem pulling away but a few seconds later it will be OK. After a couple of minutes things seem fine. This problem is difficult to fix because it could be caused by several reasons: fouled injector, faulty lambda sensor, air mass meter or water temperature sensor, dirty spark plugs, . . .
High oil consumption
It is recommended to check usually the engine oil level because some Twin Spark engines have high oil consumption.
Engine diagrams
1 Expansion tank.
2 Coolant rigid hose.
3 Thermostat box.
4 Radiator.
5 Fan.
6 Water-Oil heat exchanger.
7 Heating system radiator.
1 Suction device with gauze filter.
2 Oil pump.
3 Oil filter..
4 Water-oil heat exchanger.
5 Spray jets.
6 Engine oil pressure sensor.
7 Twin balancer shafts lubrication
(2.0 TS engine).


1 Hydraulic power steering fluid.
2 Brake and clutch fluid.
3 Air filter.
4 Battery.
5 Oil level control.
6 Cooling fluid.
7 Windshield wiper fluid.
8 Engine oil filling.

















The cam variatorfficeffice" />

How to change the cam variator on a 16V Twin Spark engine.


The Achilles heel of the 16V twin spark engines has always been the phase variator on the inlet camshaft. According to an Alfa Romeo service bulletin, there have been several editions, the earlier of which were particularly prone to premature failure. A service bulletin (Pages 1 2 3, scans by Henry Yorke) indicates that the earliest version cannot be replaced without replacing the inlet camshaft. Later versions can be replaced or even repaired with a seal/spring kit. Personally I wouldn’t bother with the repair kit, because in my experience the splines in the variator are also prone to wear. On my car this gave between 1 and 2 mm of play at the circumference of the pulley.
Replacing the variator is a fairly straightforward job, provided you have the right cam locking tools to set the timing correctly. If you don’t have the cam locks, don’t even think about doing this job. Depending on the condition and mileage of the engine, you may decide to combine this job with some other jobs. The water pump is an example. It doesn’t have a reputation for failing, but on my car it had been on the engine for over 195,000 kms, and it’s not expensive, so I decided to renew it regardless of condition.
Finally, on a job like this, where you will be opening up the engine on the car, cleanliness is essential. If you get sand, dirt or grit in the engine you’re well and truly up that creek. I wouldn’t do this job outdoors, especially if it’s windy.

What you’ll need

Ricambi (replacement parts)

The following parts are essential if you’re going to do the job properly:

  • Phase variator
  • Timing belt
  • Balance shaft belt
  • Timing belt tensioner complete with idler pulley
  • Balance shaft belt tensioner
Then there are parts that may not be too badly worn, but on high mileage engines I would recommend changing them anyway. These include:
  • Camshaft oil seals
  • Inlet camshaft bearing shells (the bearing that the variator runs in, the other cam bearings have no shells)
  • Poly-V belt (PS pump, alt)
  • Water pump

Photo 1: The new parts you’ll need. From top left: variator, water pump, poly-V belt, camshaft oil seals, balance belt tensioner, timing belt tensioner (white) with idler, timing belt and balance shaft belt. The bearing shells for the variator are not in the picture.
Tools

The workshop manual says that you will need a number of special tools. These tools are available from your dealer, but in my experience you may have to wait for anything from ffice:smarttags" />6 to 18 months, and they are expensive. Fortunately, the job can be done without most of these tools. The only ones you most definitely will need are the two cam locking tools. I got my set from GGB Engineering in London (tel. +44 (0) 1274 733727, www.ggbengineering.co.uk) for 50 pound including p&p.
The bolts on the spark plug cover, valve cover and inlet camshaft wheel are of a Torx-like type called RIBE, but a Torx T40 bit will work equally well and is more easily available.
The more or less complete list of tools required is as follows:
  • Cam locks for your engine type
  • RIBE no. 7 (I think) sockets or keys OR Torx T40 (both short and long)
  • Torx T30 key or socket for variator solenoid
  • Allen keys 5 and 6 mm
  • Sockets and spanners in sizes 10, 13, 15, 19 mm (I only use six-sided sockets).
  • Torque wrench
  • A homemade tool for the variator and the camshaft pulleys (see picture below)
  • A steel pin, 8mm diameter, ca. 10 cm long (4”)
  • A bench vise
  • Thread locking compound (Loctite) medium and extra strong
  • Non-hardening gasket compound, non-silicone! (I like Blue Hylomar or Comma Red)
  • Lots of brake cleaner, tissue, rags, brushes etc.
Of course, the more tools you have the easier the job will be.

Photo 2: Camshaft pulley tool and camshaft locking caps
Dismantling

First step is to clean the engine bay. Put some layers of cardboard underneath the car to catch any oil and cleaner. Remove as much of the oily crud that has collected in all those nooks and crannies waiting to ruin your engine. Drain the coolant if you’re going to do the water pump, and remove the short hose between engine and expansion tank.
Raise the front of the car on axle stands and remove the right-hand front wheel. Remove the plastic cover plate that sits in front of the crankshaft pulley.
Find the Top Dead Center mark on the crank pulley and the corresponding mark on the lower timing belt cover. Turn the engine until the TDC marks line up (put the car in fifth and turn the brake disc to turn the engine). Remove the oil filler cap and check that the cam lobes for cylinder 1 are pointing toward the rear of the car. If they are not, turn the crankshaft another full turn until the timing marks line up and the cam lobes below the filler cap point backwards. Piston 1 is now at TDC on the compression stroke. The notches on the balance shaft wheels should line up with the marks on the engine block.

Photo 3 showing the poly-V tensioner bolt, TDC marks, tensioner indicator and balance shaft notch.
Working from the wheel arch, remove the poly-V belt. Use a 15mm spanner on the tensioner pulley bolt (see photo) to push the tensioner back (rotate counter-clockwise), until you have enough slack to slip the belt off the PS-pump pulley. A second pair of hands comes in handy here. Remove the belt and bin it.
Loosen the four allen bolts (6mm) holding the crankshaft poly-V belt pulley. Check that the TDC marks still line up. Undo the four allen bolts all the way by hand. Remove the pulley.
Remove the four allen bolts that hold the lower timing belt cover and remove the cover. IMPORTANT: Mark the crankshaft toothed pulley and the engine block with paint to make your own TDC marks.
Back at the top of the engine, remove the spark plug cover (six RIBE bolts).
Undo three allen bolts and lift up the coil pack assembly. It helps if you pull the high tension leads for the secondary spark plugs first. Put to the side as far as the cables allow.
Pull the injector plugs and the variator solenoid plug. Unclip the plastic rail holding the cables from the fuel rail and move the whole thing out of the way as far as possible.
Remove the allen bolts from the black plastic timing belt cover, and pull the cover upwards to remove.

Photo 4: A clean engine.
Do some more cleaning. The valve cover should be absolutely spotless, in particular around the edges. Clean out the spark plug wells, as the valve cover tends to leak oil into them. Clean the timing side of the cylinder head and engine block as much as possible, especially behind the camshaft pulleys. It should look something like this:

Photo 5: Belts and pulleys everywhere
Note the white timing belt tensioner wheel, which is the upgraded type. If yours is black, be very thankful that it’s still in one piece.
Remove the belts from the engine. Undo the 10mm nut at the back of the balance shaft belt tensioner (just above the oil filter), and remove the tensioner and the belt. Loosen the 13mm nut on the white timing belt tensioner wheel, and slide the timing belt off of the pulleys.
Undo three allen bolts (6mm) and remove the timing belt tensioner – idler assembly.
Optional: undo two 13mm bolts and try to remove the water pump without marking the cylinder head mating face.
You’re now ready to open up the engine. Wash your hands, put on a clean boilersuit, and brush your teeth.
Undo the nine RIBE bolts and lift off the valve cover. Be careful not to damage the rubber seal. Use some tissue to soak up the worst of the oil from the mating faces and the bearing caps. Check the camshafts for wear. The tips of the lobes will be shiny, but any wear on the up- and downslopes is bad news. Most likely to wear are the first two lobes on the inlet camshaft, as they sit right underneath the oil filler cap where sand or the oil filler nozzle at your friendly local dealer can get at them. Here’s a close-up of what I found:


Photos 6 and 7: this camshaft is pretty much dead.
Lobe number 1 had been worn away until the valve lift was just a few millimeters (1/8 in) instead of around 10mm. Amazing that the car still ran as well as it did. Which meant another trip to the dealer for a new camshaft and 8 new cam followers (hydraulic tappets). Bugger!
Remove the camshaft pulleys. The inlet pulley is fitted with four RIBE bolts (I used a Torx T40 socket), the exhaust cam pulley with a 19mm bolt which is TIGHT (or should be). Use the pulley tool to keep the pulleys from turning.
Undo the four bolts (10mm) holding down the camshaft bearing end cap next to the pulleys and remove the end cap. On these bolts I would definitely use a six-sided socket rather than the more common 12-sided tools, because the fit on these bolt heads is quite loose. Similar for the other camshaft bearing caps. Remove the small oil seal from the exhaust camshaft end.
IMPORTANT: Mark the inlet camshaft bearing caps (1 to 5). The numbers cast into their tops are meaningless: I found numbers 1, 4, 2, 4 and 14 respectively. Gradually undo the bearing cap bolts, undoing all the bolts just half a turn, then all of them another half turn, until the valves have all closed. (If you remove the bolts and caps one by one, the force from the valve springs may lift one end of the camshaft, damaging the bearing cap on the other end.) Remove the bearing caps.
Lift out the inlet camshaft. Clamp it in a vise with soft jaws (I used bits of wood). Using the homemade tool, unscrew the phase variator from the camshaft. This may be very tight, as it’s loctited in place. You may need to use heat to break the bond, but be VERY careful with this, as you don’t want to damage the surface treatment (hardening) of the camshaft.
Reassembly

My manual doesn’t say anything about the variator and how to fit it, but here’s how I did it. Don’t blame me if it doesn’t work for you.
Clean the threads in the camshaft and on the variator. Put red Loctite (extra strong) on the threads of the new variator, taking care not to get any into the oil channel, and screw it into the camshaft. Tighten with the pulley tool (see picture) and leave overnight for the Loctite to cure fully. You can continue to fit it now, but don’t turn or start the engine until the Loctite has cured.


Photos 8 and 9: fitting the new variator to the camshaft. Be careful not to mark the surface of the variator where it runs in the bearing and oil seal.
Remove the old variator bearing shells from the cylinder head and the camshaft bearing end cap. Clean the bearing recesses and fit the new shells. Put some oil on them. If you’re replacing the camshaft as I was, take out the cam followers (use a magnet or your fingers) and put in eight new ones.

Photo 10: the head with a new bearing shell fitted (left) and the cam followers removed. Note the locating dowels for the bearing caps.
CRITICAL STEP: FOLLOW THE NEXT INSTRUCTIONS OR YOU WILL RUIN THE BEARING CAPS AND CONSEQUENTLY THE CILINDER HEAD!!!!
Put the camshaft back in with the cam lobes for cylinder 1 pointing up and towards the rear of the car. Place bearing caps 1, 3, 4 and 5 on the camshaft and GRADUALLY tighten the bolts most of the way, but not fully. Now fit bearing cap 2 (the one with the oil supply for the variator). This cap controls the end float of the camshaft, so jiggle the camshaft lengthways until the cap slots over the locating dowels. If you just fit it and tighten the bolts, chances are the cap will catch on the edge of the dowels and you’ll end up ruining the cap as you tighten the bolts. You have been warned! Once the cap is in place tighten the bolts on all caps.
Oil the new oil seals and slide them over the camshaft ends, but don’t push them fully home yet.
Very carefully clean the mating face of the camshaft bearing end cap and the head, removing all traces of the old gasket compound. Put some liquid gasket on the bottom of the end cap and fit it over the camshafts. Push the oil seals fully home.

Photo 11: new camshaft, cam followers, bearing caps and camshaft bearing end cap in place.
Refit the camshaft pulleys, but don’t fully tighten the bolts.
Fit the water pump, which should come with a new O-ring. This is a bit of a pig, because the O-ring tends to slip out of its groove, which causes water leaks and misalignment of the timing belt wheel. Not good. I used a small mirror to check all the way round before pushing the pump fully home. Use a little Loctite medium on the bolts.
Fit the new timing belt tensioner – idler assembly. Use some Loctite medium on the three bolts. Don’t tighten the nut on the tensioner wheel yet.
Fit the new balance shaft belt tensioner, but do not tighten the nut yet.
Remove the inlet camshaft bearing cap on cylinder 2 (you marked this cap as number 3) and the exhaust camshaft bearing cap on cylinder 3. Fit the cam locking tools taking care not to damage them on the dowels.
Check your temporary TDC marks on the crankshaft toothed pulley.
Now fit the timing belt around the crankshaft toothed pulley, tensioner, water pump, idler, and camshaft pulleys. Fit the balance shaft belt around the crankshaft toothed pulley, tensioner and balance shaft pulleys, making sure that the marks (small notches) on the balance shaft pulleys are lined up with the marks on the block. For both belts, make sure that the arrows on the belts correspond to the direction of travel.

Photo 12: fitting the timing belt with the cam locks in place.
Refit the bottom timing belt cover and check that the TDC marks still line up. If they don’t, fiddle with the crankshaft and the belts and the whole lot until everything does line up.
Fit the 8mm pin (see tools list) into the hole next to the timing belt tensioner, and use that and a screwdriver or similar to set the tension of the timing belt to maximum (pointy indicator on tensioner points at the steel pin). Tighten the 13mm nut on the tensioner wheel.
Using a screwdriver or similar, adjust the balance belt tensioner until the indicator sits in the middle of the cut-out in the hexagonal bolt head in the center of the tensioner wheel (if you look at it you will understand). Tighten the 10mm nut at the back of the tensioner bracket. Also tighten the bolts on the camshaft pulleys, using the pulley tool to hold the pulleys.
Remove the cam locks and refit the bearing caps. Turn the engine by hand through two full revolutions, taking care not to let the engine turn backwards at the end of it; not even slightly!!
Adjust the timing belt tensioner, reducing the tension until the indicator points at the little hole in the base of the tensioner. Check that the balance shaft belt tension is still correct. You should end up with the timing side of the engine looking something like the picture below. Note the notches on the balance shaft pulleys.

Photo 13: new belts, tensioners: looking good.
Refit the valve cover. I like to use liquid gasket on the valve cover gasket, is this is prone to leaking oil all over the place. Be careful not to overtighten the bolts, as this may crack the cover.
Refit the remaining bits and pieces, connect everything up and put in new coolant. Refit the road wheel, take the car off the axle stands. Go out on a test drive and enjoy a reborn Alfa Romeo engine. You’ll be amazed at the difference.

The variator solenoid

The phase variator is controlled by the variator solenoid sitting between the fuel injectors for cylinders 1 and 2. It’s an electromagnetic actuator that operates a hydraulic valve against a spring (see photo). On older cars, it may start to leak oil onto the inlet manifold. I took the opportunity to fix this leak at the same time that I did the variator, because the valve cover has to come off to undo one of the solenoid bolts.

Photo 14: locking plate, solenoid and valve piston with spring.
I found that there is no seal or gasket on the solenoid. Instead, the bore that it sits in has an oil drain hole through which oil can flow back towards the sump (see green arrow).

Photo 15: solenoid bore with drain hole (green arrow) and recesses edge (red arrow)
On older engines, crankcase pressure will force oil past the solenoid to the outside, causing the oil leak. I put some liquid gasket in the recessed edge (red arrow), taking care not to get any into the bottom of the bore. I then very carefully slid the solenoid back in, and refitted its locking plate and bolts with a little Loctite medium. This seems to have done the trick, but it’s early days yet. Also, it seems to me that the symptom of an oil leak because of crankcase pressure must be a sign of worn cylinder bores. So the next job looms on the horizon….

Torque settings

General note: I always use a torque wrench wherever possible. I’m sure that the mechanic at my local garage doesn’t, and maybe it’s not always necessary, but it does give me peace of mind. But it’s up to you whether you want to do so or not.

Crankshaft pulley bolts 21-26 Nm 15-19 lb.ft
Timing belt tensioner nut 24-29 Nm 18-21 lb.ft
Balance belt nut 12 Nm 9 lb.ft
Inlet camshaft pulley bolts 12 Nm 9 lb.ft
Exhaust camshaft pulley bolt 100-124 Nm 74-91 lb.ft
Camshaft bearing cap bolts 13-16 Nm 10-12 lb.ft
Valve cover and timing belt cover bolts 9 Nm 7 lb.ft
Water pump bolts 17-21 Nm 13-15 lb.ft
Variator solenoid bolts 14-20 Nm 10-15 lb.ft



.







videos

http://youtu.be/xacnK8u6Y8A


http://youtu.be/Q0pQ2zcPXfs


Wash your mouth before you talk about Alfa Romeo, and study some history of cars instead.!!!!

:playing_m usic::play ing_music:

التعديل الأخير تم بواسطة cars admire ; 02-05-2011 الساعة 02:49 AM
رد مع اقتباس
  #2  
قديم 28-05-2011, 02:52 AM
dr tamer naguib dr tamer naguib غير متواجد حالياً
 
تاريخ التسجيل: Apr 2011
الموقع: طنطا
المشاركات: 125
dr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nice
افتراضي رد: Twin Spark engine!!

genius
: 14369D~149::1 4369D~149:
رد مع اقتباس
  #3  
قديم 28-05-2011, 07:34 AM
cars admire
Guest
 
المشاركات: n/a
افتراضي رد: Twin Spark engine!!


المشاركة الأصلية كتبت بواسطة dr tamer naguib مشاهدة المشاركة

genius
: 14369D~149::1 4369D~149:
you really are a genius
too

!!
to care about that
and read it as well too !!!

: fun_36_3_3[1]: : 14369D~149::1 4369D~149::14 369D~149:
رد مع اقتباس
  #4  
قديم 29-05-2011, 03:27 AM
dr tamer naguib dr tamer naguib غير متواجد حالياً
 
تاريخ التسجيل: Apr 2011
الموقع: طنطا
المشاركات: 125
dr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nicedr tamer naguib is just really nice
افتراضي رد: Twin Spark engine!!


المشاركة الأصلية كتبت بواسطة cars admire مشاهدة المشاركة

you really are a genius
too

!!
to care about that
and read it as well too !!!

: fun_36_3_3[1]: : 14369D~149::1 4369D~149::14 369D~149:
thanks for your kind words
i consider mechanical engeneering areal art, as much as important and pleasing as other arts and this encourage me to ask you if you
can explain to me
( in asemple way)

how can the ferrari motors reach 10000 rpm while the max of others is 8000
- please accept my great respect
رد مع اقتباس
  #5  
قديم 29-05-2011, 08:14 AM
cars admire
Guest
 
المشاركات: n/a
مميز محامل الكرنكات والكراسى الرئيسية على رولمانات بلى وليس على سبايك !!!!!


المشاركة الأصلية كتبت بواسطة dr tamer naguib مشاهدة المشاركة

thanks for your kind words
i consider mechanical engeneering areal art, as much as important and pleasing as other arts and this encourage me to ask you if you
can explain to me
( in asemple way)

how can the ferrari motors reach 10000 rpm while the max of others is 8000

- please accept my great respect
if we consider about engineering in the best form
!!!!!!!!
then we will remember alfa romeo and saab engines ,both of them really are a fine art in the mechanical world !about maximum RBM
ferrari motors reach 10000 rpm while the max of others is 8000
i will try to give you the answer by pictures and videos !





a new intake manifold
AND
fast cams gears and small cams lobe
!!!



V12 CI example below. The Timken example too looks like a conventional crank adapted for roller bearings, whereas the most robust roller crank is the disk-web design because the crank is so much shorter. Of course, at high crank speed, the rollers are going at a really crazy speed.






All gear drive up to the DOH Camshafts on each bank. Six [6] valves per cylinder. Central unit injector. Disc-webbed roller bearing crankshaft with end feed oil supply for the crank pins. Tunnel crankcase made from welded steel castings. Vee mounted turbocharger and vee-facing exhaust ports to capture the pulse energy.

Illustrator is unknown; this comes from a Bristol Siddeley sales brochure.
for an example!!!




it is a mechanical charming and magic touch !!!













: fun_36_3_3[1]:
: 14369D~149::1 4369D~149::14 369D~149:

i hope you like it and understood it completely now
!!

التعديل الأخير تم بواسطة cars admire ; 29-05-2011 الساعة 08:26 AM
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إضافة رد

الكلمات الدليلية
spark, twin

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