Do-it-yourself vaz 11113 oka engine repair

In detail: do-it-yourself repair of a VAZ 11113 engine from a real master for the site my.housecope.com.

Very often they call or write us with a question - “on the site you showed so many modified engines, but do you do a standard overhaul?”
Answer - YES, we do!

But on the site earlier, somehow, reports with examples of major repairs were not laid out - we consider this work simple and did not write reports on it - it was taken for granted that we also carry out ordinary major repairs.

However, after the increased number of questions on this topic, we decided to show in detail the standard overhaul, so to speak, from the “chamber of weights and measures”.

What are the reasons for the standard overhaul, why not make tuning, forcing the engine? The answer is simple - not everyone needs tuning and not always. Often, the client is quite satisfied with the parameters of a serial engine, but its resource has been exhausted. The client needs a good and high-quality repair, the budget is often limited, and the resource needs a high one. We offer such clients typical engine overhaulhowever with some minor tweaks that dramatically affect the engine resource and have been tested by us for a long time on tuning projects.

Let's consider further such work in all details.

So, our client brings an Oka car, with a two-cylinder 11113 engine, a volume of 0.75 liters. The exact mileage is unknown, but about 100 thousand km. Symptoms - the candles are oiled, there is also a strong oil throw through the crankcase ventilation into the air filter housing. Diagnosis - piston group.

Let's look at the car and the engine compartment. We discover that someone has already laid the fuel return line. We are also doing this kind of work. The line for draining the fuel into the tank on the Oka is also needed with a serial engine, especially in hot weather, in conditions of traffic jams.

Video (click to play).

Oka was created as a people's car, designed to meet the demand not only of young people, but also to close the niche of vehicles and mobile vehicles for people with disabilities.

Based on the technical requirements and the task put forward by the designers, the entire car, and in particular the power unit, had to be made of widespread components, be able to carry out maintenance and repairs with our own hands without involving the qualified services of a certified service station.

The history of the development of the Oka family of cars has seen the use of various power units. Initially, during the "prototyping", the original Daihatsu Cuore AB series engine was installed on the car, which had 2 cylinders and developed a power of 26-30 hp. The first few test vehicles were built.

Despite the fact that the design of the engine was completely worked out by Toyota designers, this engine was not copied by Soviet designers, since the analysis of the design revealed increased requirements for the quality of manufacturing of parts and assembly of the engine itself.

In addition, the installation of such a power unit would require completely creating the production of engines from "0", which would affect the final cost of the car and the timing of the car's release into series.

By the time the concept of a "youth" or "popular" car was approved, a VAZ 2108 car was delivered to the conveyor of the Togliatti automobile plant, which determined the fate of the power unit for the baby.

By 1979, the designers of the VAZ power units had completely worked out the 2108 engine and were already ready to move on to changing the line of the 1.1 liter VAZ 2108-1 export engines to the 1300 cc engine 2108, which went to the domestic market. Therefore, it was decided to develop its own 2-cylinder engine based on a new power unit, which formed the basis of the VAZ production line.

Oka engine with a volume of 650 cc. turned out from half of the power unit 2108. The choice of exactly half of the already developed block and the engine itself was determined by the cost of developing equipment for the manufacture of a 2-cylinder engine. The design feature of this in-line gasoline twin is an overhead camshaft that controls the operation of four valves - 2 for each cylinder.

The working process in the engine takes place in two revolutions of the crankshaft, which causes the presence of vibrations during the operation of the internal combustion engine. To compensate for the imbalance, two balance shafts are installed to damp vibration. Engine power is 29 hp. The maximum torque is 44.1 Nm, which is reached at 3400 rpm.

The fuel supply system is made according to the Euro-0 standard on the basis of a carburetor. The fuel pump is mechanically driven by the engine units.

The oil system is made similar to the original 2108 using a gear pump. The oil is taken from the crankcase and is directed through the internal channels directly to the rubbing pairs of the camshaft and crankshaft.

The cylinder walls are lubricated with oil mist generated by the rotation of the crankshaft. Valve stems and parts of the gas distribution mechanism, with the exception of the camshaft itself, are lubricated by gravity.

The Oka 11113 engine (VAZ 11113) appeared in the process of finalizing the VAZ 2108 power unit and bringing its working volume to 1500 hp. Again, a half-hearted solution was used. The engine blocks and 650 and 750 cubic meters were externally absolutely identical. The changes affected the piston diameter, which was increased from 76 to 81 mm. The engine block has been redesigned internally.

The baffles between the cylinders were thinned and the additional cooling circuit of the combustion chamber was eliminated. The power unit has become more highly loaded in the temperature part. This shortcoming in the early stages led to jamming of the pistons, the formation of scoring on the cylinder walls and other malfunctions due to insufficient cooling.

Due to the implementation of improvements, the 11113 engine became more powerful and already produced 35 hp. and 52 Nm of thrust. The engine remained carbureted and met the environmental requirements of Euro-0.

The main malfunctions of the first 650 cc engines and the 11113 motor include increased noise and vibration. Increased noise appears when the engine warms up and is caused by the presence of balancer shafts. Noise is considered normal, although it is a concern for car owners.

Increased valve clearances can cause additional noise. Eliminated by regulation. Vibration, on the other hand, has a constructive reason and is due to the operation of only 2 pistons, which have a working stroke for only 2 revolutions of the KV, that is, during operation, 1 piston turns the KV by 360 °.

Burnout of the cylinder head gasket. It is caused by inaccuracy in the manufacture of gaskets at the factories and improper tightening of the block head, which allows incomplete compression of the gasket. This sealing element must not be reused during repairs. Mandatory replacement is required, while it is worth paying attention to the surface of the gasket and in case of scoring, you should not use it.

Difficulties in starting a hot 750 cm 3 engine are due to the fuel pump diaphragm and the layout of the engine compartment.Elevated operating temperatures of the engine block lead to the formation of fuel vapors in the pump cavities, and the unit is not designed for pumping gaseous media.

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In the event of a malfunction on the track, it is enough to put a moistened rag on the pump housing. This will be enough to get to the base and replace the diaphragm.

Loss of spark. The sparking system in the cylinders is made in a contactless scheme using an ignition coil. The location of the coil allows water to enter when passing through puddles. This causes the voltage boosting element to fail and results in the inability to start the engine.

Cooling system. Has the same problems as all VAZ engines. The low quality of the pump leads to its failure, which in due time leads to overheating of the engine. The same applies to the reliability of the thermostat. If problems arise, replacement of the elements is required.

Failures of electronic sensors. They are caused by the poor-quality performance of electronics by Russian manufacturers, as well as by the low culture of the assembly of power units, which allow incomplete fixation of the sensors on the motor housing.

The OKA engine can be repaired in a garage if you have experience in servicing and repairing Russian-made ICEs. With the exception of specific elements, engine repair is carried out using components used to repair VAZ 21083 and VAZ 21093 engines.

The Oka engine of both the first and second generations is quite reliable. And subject to the factory requirements for the maintenance procedure, it has a resource of 120,000 km.

According to the vehicle passport, both the 11113 engine and the 1111 engine have a maintenance program every 15,000 km. The use of a fully synthetic engine oil is recommended for this maintenance interval. When using semi-synthetics, and even more so mineral motor oils, the Oka motor requires a lubricant change in accordance with the service life of the oil, that is, at least 10,000 km.

In this case, the oil system is flushed and the filter element replaced. The volume of oil in the Oka engine is 2.5 liters, but when replaced, 150-300 ml of grease remains on the walls of the motor, so the filling volume is controlled by the dipstick. Oil overflow is not allowed.

The cooling system of the OKA 11113 engine requires a fluid change when the operating time is 60,000 km. At the same time, the coolant retains its lubricating and anti-corrosion properties and prolongs the operation of the cooling system.

Every 30,000 km, a mandatory valve adjustment is required. But in fact, the clearances are adjusted according to the technical condition with control on a given run.

Additional work that is not relevant on modern cars includes the obligatory cleaning of the carburetor every 30,000 km with idle speed adjustment at each next maintenance.

At 60,000 km, regardless of the technical condition, the timing belt is being replaced. The design of the cylinder-piston group allows the valves to bend when the belt breaks, so this procedure should not be neglected.

Tuning the Oka engine does not make any practical sense in normal operating conditions. An increase in power and torque when flashing ECM units can give an increase of up to 10% horsepower, which with a power of about 30 hp. would not be particularly appropriate.

As a garage revision, the Oka engine is tuned by installing an injector from a VAZ 21083i, but the cost of revision can be comparable to the installation of a Chinese liter TJ376QE FAW (Daihatsu) engine, which was mounted on a Serpukhov-made SeAZ Oka 11116-02 car in 2007-08.

Serially, only the VAZ 1111 and VAZ 11113 engines were installed on the car. It was with such power units that the car was supplied to retail chains.

As options for saving production and ensuring environmental requirements, both SeAZ and KAMAZ tried to use power units from other manufacturers. This was due to the fact that AvtoVAZ refused to continue producing minicars and actually stopped supplying power units to complete the car.

So in 2004 a trial series of cars with the Korean Hyundai Atos engine was made. 15 cars were produced for trial tests, but the program did not go into series.

Also this year, small-scale tests were carried out at SeAZ of cars with engines of the Melitopol plant MeMZ 245. The car had the name OKA-Astro and was subsequently produced in small series on the basis of the Kamov car assembly plant. Another version of the Ukrainian power unit was the MeMZ 247.1 This motor, which met the Euro-2 requirements, was not supplied for mass production, although such a configuration is rarely found in the secondary market.

In 2007-2008, a Chinese three-cylinder injection engine was installed at the Serpukhov plant, which developed 53 hp.

The sports version of the Oka uses a Priora engine.

The tracked all-terrain vehicle based on the Oka uses a VAZ 2131 engine.

As an option for garage tuning, there are several examples of cars using three-cylinder Volkswagen diesels.

I decided to do the overhaul after completely disassembling the motor and inspecting it. But alas, not immediately after the purchase, but only after more than a year of its operation - there was no money and I finished it off (not on purpose, but because I did not pull at the bottom at all), often spinning up to 5-6 thousand rpm on the carburetor 21081 ...
A poor-quality repair was made on the car before the purchase (boring in the first repair without replacing it with the corresponding piston), as a result of which the engine also died very quickly, and a burned-out exhaust valve in the second cylinder was also found.
The overhaul was carried out in the city of Naberezhnye-Chelny in the KVAZAR Workshop.
What was done:
1. Boring up to 82.8
2. Connecting rods and pistons 2110 with floating pin
3. Piston cooling nozzles
4. Light valves
5. Bronze guides
6.RS pusher washers
7. Drilled channels for forced lubrication of pushers
8. Grinding the knee all gaskets, new cylinder head bolts, etc.
9. Craft clutch, flywheel groove and replacement of its crown.

You can see the finished motor in the photos. After running in 3000 km, I began to pull much harder, unlike the new state, not a drop of oil leaks anymore, the engine is dry and clean!))))

Checkpoint disassembled and washed. The gears turned out to be in good condition, and the whole row, apparently it was replaced simply in the collection sometime. Also installed a cardan from Kalina.
Summer oil in the engine ZIG, in the Shell checkpoint

Oka's car began to be produced a long time ago and has earned considerable popularity among domestic motorists. Of course, the technical characteristics of the car in question are far from the requirements of a modern motorist. Despite this, at one time Oka enjoyed great popularity due to its inherent economy. Owners of an Oka car of the early years of production often encounter malfunctions of the engine system. This is easily explained by the service life and operating conditions of the vehicle. One of the most effective ways to return the vehicle to work is to overhaul the Oka or VAZ 11113 engine. It is quite difficult to carry out repairs yourself, since many processes will require expensive equipment. In order to save money, you can prepare the Oka for a major overhaul with your own hands.

The benefits of the overhaul are clear. Large-scale repair of the engine will allow: to increase the service life of the vehicle, to increase the resource of the engine and to increase its performance.

The first stage of the overhaul is a detailed diagnosis of the internal combustion engine. It is quite difficult to carry out a check in a garage. In order to determine the productivity of an engine, you will need computer equipment and related skills.

To perform a complete restoration of the engine, it is necessary to dismantle the vehicle device. It is not so easy to carry out this procedure with your own hands, despite the small dimensions of the motor. In order to avoid damage to the engine, it is necessary to use a number of specialized equipment: support frames, a hydraulic puller, a device for hanging the engine.

After the engine has been successfully dismantled, it is necessary to start disassembling it. It is necessary to disassemble the engine strictly in a certain order in order to prevent damage to its individual parts.

After disassembly, it is necessary to proceed to the most important stage of overhaul, which consists in troubleshooting individual components of the internal combustion engine. The main purpose of the overhaul is to restore the original parameters of the vehicle elements. Therefore, the only correct manual for repairing the Oka is the original manufacturer's instructions.

In the course of a large-scale restoration of the VAZ 11113 engine, the following procedures are mandatory:

Restoration of the parameters of the cylinder block VAZ 11113.
Repair of crankshaft and camshaft inlets.
Restoration of the bearing part of the crankshaft.
Processing the head of the VAZ 11113 cylinder block.
Restoring the tightness of the unit by welding.
Correction of the connecting rod geometry.
Replacement of all consumables and rubber seals.

Large-scale car repair requires appropriate skills and expensive equipment. Therefore, in order to perform the restoration, you will have to turn to professionals.

One of the most important stages of engine restoration is cylinder head processing. The vehicle manufacturer specifies the permissible head processing limit, which must be strictly adhered to when carrying out repairs. Before proceeding with a large-scale repair, it is necessary to study in detail the accompanying instructions of the manufacturer's plant. Also, it is imperative to check with the master to what depth the cylinder head will be processed. If the element is worn out above the permissible limit, further operation of the block head is prohibited. If processing and restoration of the cylinder head is possible, the work is accompanied by the obligatory replacement of the cylinder head gasket. In this case, it is also necessary to take into account the depth of processing of the element in order to give the block its original tightness.

To restore the VAZ 11113 internal combustion engine to the factory parameters, it is recommended to use the services of proven workshops. Overhaul is a rather complicated and time-consuming procedure that must be carried out by qualified craftsmen. Before carrying out repairs, it is necessary to assess the cost of the restoration soundly. Some car enthusiasts forget to appreciate the difference between restoring an element and replacing it. With critical engine wear, repair costs may well exceed the primary cost of the internal combustion engine. If it is necessary to replace individual elements of the vehicle, it is worth using only original spare parts from the manufacturer.

After carrying out the repairs, it is worth starting to break in the car. During the running-in period, it is necessary to prevent an increased load on the propulsion system. Otherwise, the costs of restoring the engine will not pay off and the VAZ 11113 vehicle will again lose its performance.Successful restoration of the VAZ 11113 car!In general, the car "Oka" is a fairly reliable and unpretentious model: the car has low fuel consumption, high-quality chassis, which is perfectly adapted to our roads.However, during operation, certain technical problems appear with enviable regularity in various systems and mechanisms of the machine. We will tell you more about the most frequent breakdowns and malfunctions.Starter problems
Probably, all owners of the VAZ-1111 are familiar with the situation when you turn the ignition key, but the car does not react in any way - the starter does not even try to turn the crankshaft. How to find out what the problem is and what to do in such a situation?
First, check the battery terminals: if they are securely clamped, if there is oxide on them. Perhaps the "plus" or "minus" just flew off.
Second, it is necessary to exclude jamming of the crankshaft. To do this, turn the coolant pump (pump) or generator shaft. If they do not rotate, you should contact the service station - this problem cannot be eliminated on the spot.
Third, inspect the ignition switch and starter - it is possible that any of the contacts are disconnected and therefore no electric current is supplied.
Fourth, if a crack is heard under the hood when the ignition key is turned, then, most likely, the starter traction relay has burned out. It needs to be replaced.
Fifth, it is not uncommon for the starter to make a loud noise during operation. Possible cause - improper installation of the starter or loose mounting. Tighten loose bolts or align the entire mechanism.
Sixth, loud noise is also possible due to wear on the bearing bushings. In this case, they should be replaced.If the starter turns the crankshaft freely, but the engine still does not start, then do the following:
• check the capacity of the storage battery, possibly there is not enough voltage. Most often, in this case, a crackling sound is heard. If so, recharge the battery or replace it;
• check the Hall sensor with a voltmeter, if you need the device not at hand, then install a known good sensor (experienced motorists recommend always carrying a spare Hall sensor with you);
• the engine may not start due to a faulty commutator. It cannot be repaired - it should be changed immediately;
• check the correctness of setting the ignition timing;
• make sure that the marks on the crankshaft and camshafts match.If after that the car still does not start, then we proceed to check the spark plugs:
• unscrew the candles and measure the gap (standard - 0.7-0.8 mm);
• if there are spare working candles - screw them in, it may be that the old ones have simply fallen into disrepair.

Carburetor malfunctions
The second mechanism that can cause the car not to start is the carburetor:
• the needle valve may be stuck closed - tap lightly on the carburetor cover. Replace the faulty valve as soon as possible;
• if there is no gasoline in the carburetor float chamber, check the filters and pipes of the fuel system. They may be clogged or pinched;
• in hot weather, especially after long periods of standing, gasoline can evaporate from the carburetor. Try manually pumping fuel;
• the pump may be faulty - unscrew the fuel hose from the carburetor, pinch it with your finger and manually pump the gasoline - a working pump will create a tangible pressure;
• check the jets (main fuel and idle), possibly dirt has got into them;
• tighten all bolts and carburetor mountings."Shots" from the exhaust pipe
Each of us has heard more than once how cannonade literally sounds from the exhaust pipe. The VAZ-1111 car is also susceptible to a similar disease. The reasons for this are as follows:
• incorrectly set angle of ignition moment;
• the switch is faulty;
• the valve timing is knocked down - the marks on the crankshaft and camshafts do not match;
• broken ignition coil;
• installed candles with an inappropriate glow number

Gasoline smell
Often, domestically produced cars "delight" the driver and passengers with a persistent smell of gasoline. If this situation is familiar to you, then proceed according to the following algorithm:
• check the threaded fasteners and clamps on the fuel system hoses;
• inspect the oil dipstick, if there are traces of gasoline on it, it is possible that gasoline will get into the crankcase through the faulty diaphragm of the fuel pump. A diaphragm or a pump follows, if a lot of fuel gets in, then oil;
• adjust the carburetor starting device;
• check the level of gasoline in the float chamber;
• screw the fuel jets tightly;
• adjust the ignition timing;
• inspect the throttle valve, it may be stuck;
• use a compressor to check the pressure in the cylinders. Gasoline odor can be caused by worn valves, rings, seats and other parts.Increased fuel consumption
If the car has an increased fuel consumption, then it is necessary to check the following components and mechanisms:
• the diaphragm of the fuel pump - its damage leads to the ingress of gasoline into the crankcase;
• tighten all clamps and threaded connections of the fuel system, possibly at some joint there is a leak;
• Quite often, increased resistance to movement of the car causes unnecessary fuel consumption. VAZ-1111 at a speed of 50 km / h should have a run-down (i.e., the distance that the car will travel when the neutral gear is engaged) more than 500 m, if this does not happen, then check the pressure in the wheels, the angles of the front wheels and the operation of the brake system (possibly wedging it up);
• adjust the carburetor, check the throttle valve, jets, needle valve;
• Sometimes increased fuel consumption is a sign of wear or damage to valves and piston rings.Increased oil consumption
Increased oil consumption is considered to be 500 g per 1000 km of run, i.e. if you have to add oil to the engine every few hundred kilometers. The reasons for this malfunction are as follows:
• wear of sealing lips, hardening of gaskets. In this case, wash the engine and find the leak after a short trip;
• clogged crankcase ventilation system;
• wear or loss of elasticity of the valve stem seals (valve seals), valve stems or guide bushings. It will be necessary to partially disassemble the cylinder head and replace the broken parts;
• wear or breakage of piston cylinders and their rings. It is difficult to replace cylinders on your own without special equipment, so it is better to contact a service station.The oil pressure indicator light is on
If while driving your oil pressure indicator light comes on, you should stop immediately. Further driving may result in serious engine damage. After stopping, carry out the following diagnostics:
• check the oil level on the dipstick;
• it is possible that the oil of the wrong viscosity has been filled in - change it;
• remove the oil pan and check the oil receiver mesh (may be clogged) and the pressure reducing valve for skewing, clogging or weakening of the spring;
• inspect the diaphragm of the fuel pump - if it is damaged, gasoline gets into the oil, thereby thinning it;
• check the oil pump - due to wear of the gears, it may be defective;
• make sure that the emergency oil pressure sensor is in good working order and the terminal is connected to it (maybe the contact has fallen asleep).Overheating of the engine
Severe overheating of the engine may be due to malfunctions in the cooling system:
faulty thermostat;
• plugs in the cooling system resulting from leaks in the expansion tank cap. To check, apply soapy foam to the lid and press your hands on the cooling system hoses, if soap bubbles go out, replace the tank or lid;
• limescale in the cooling system - flush the entire system with special means and do not use hard water in the future (it is best to fill in antifreeze);
• excessive contamination of the radiator cells - wash the radiator with a jet of water;
• check the electric fan - close its contacts, if it works, then the sensor is faulty, if not, then check the electrical circuit or the fan motor;
• adjust the ignition timing.Extraneous noise when driving
If during movement there are extraneous noises or tapping, then the following mechanisms must be checked:
• wheel bearings - their wear causes noise;
• tires - possibly uneven tread wear, rubber peeling;
• the wheel touches the wheel arch liner - adjust the wheel alignment angles, do not overload the car and use only standard wheel disks;
• tighten the wheel nuts;
• faulty shock absorber strut;
• worn suspension spring;
• check the silent blocks, ball joints, tie rods, anti-roll bars, strut mountings.

Brake system problems
A squeal when braking is the first sign of a problem with the braking system. The most common causes of screeching are the following malfunctions:
• wear of brake linings (pads) - replace both pads;
• dirt trapped in the pads - clean the pad surface with a metal brush;
• corrosion of the brake disc - sharpen or replace it;
• Weakened or broken rear brake pad return spring.This is not a complete list of possible malfunctions. Any technique breaks down sooner or later, but if we cannot predict when exactly this will happen, then it is in our power to prepare:
1. Always carry a tow rope with you.
2. it is advisable to have wires in the car for lighting (especially important in winter);
3. Spare switch and Hall sensor;
4. a set of fuses;
5. a piece of fuel hose and clamp;
6. spare spark plugs;
7. belts for the generator and pump;
8. clutch cable;
9. solenoid valve for idling.
This simple list will help you cope with some breakdowns and get to the service station. Do not forget to grab some politeness - motorists, despite the general bitterness, are quite close-knit and sympathetic people. It is unlikely that you will be left alone in trouble. Image - DIY VAZ 11113 Oka engine repair

Full restoration of engine performance is carried out by repairing:
Cylinder head; cylinder block; crank mechanism; crankshaft. Complete replacement of all these parts is also possible. Stages of engine overhaul Dismantling of the power unit; Washing; Troubleshooting; Engine repair; Cold running; Engine installation.Each stage has its own characteristics. For example, when dismantling, the main thing is to follow a certain sequence so as not to damage anything. Any measurements on a dirty engine will turn out to be wrong.Install a clean cylinder block complete with balance shafts on the stand and screw the missing studs into it.Lubricate the bearing shells and the crankshaft thrust rings, as well as the pistons and oil seals with engine oil. When assembling the engine after repairs, install new crankshaft oil seals.Install the shells in the sockets and caps of the main bearings, place the crankshaft assembly with the balance shaft drive gear in the main bearings and insert thrust half rings into the sockets of the middle main bearing (Fig. 2-14).Rice. 2-14. Installation of thrust half rings of the crankshaft in the seat of the middle main bearing

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Caps are counted from the drive side of the camshaftThe half rings should face the grooves towards the thrust surfaces of the crankshaft (from the side of the grooves, an anti-friction layer is applied to the surface of the half ring).Install the main bearing caps according to the markings on their outer surfaces (Figure 2-15).Unfold the covers so that the marks on each of them are on the side of the generator mounting. Tighten their fastening bolts.Rice. 2-15. Marks on the main bearing caps.Check the axial free play of the crankshaft. To do this, turn the cylinder block with the back side up and install a stand with an indicator on it so that the indicator leg rests against the crankshaft flange. Moving the shaft up and down (for example, with screwdrivers), measure the axial free movement of the shaft with an indicator, which should be within 0.06-0.26 mm. If the stroke is greater, then bring it back to normal by replacing the old half rings with new ones or installing half rings of increased thickness.Install the gears on the balance shafts so that the timing marks on the gears are against the marks on the crankshaft drive gear (Figure 2-16). Place washers and bolt the gears.Rice. 2-16. Marks for installing balance shafts gears: 1 - balance shaft gears; 2 - crankshaft gear; A - TDC mark on the crankshaft rear oil seal holderInstall the crankshaft rear oil seal in the holder 3 (Fig. 2-17), having previously lubricated it with engine oil. The inward displacement of the stuffing box relative to the outer surface “E” of the holder should be no more than 0.25 mm. The gland protrusion relative to surface “E” is not allowed.Rice. 2-17. Crankshaft rear oil seal holder: 1 - oil seal; 2 - gearbox centering bushings; 3 - rear oil seal holder; A - cavity of crankcase gases; B - oil cavity; C - cavity of the cooling system; D - holder surfaces adjacent to the cylinder block; E - outer surface of the holderPress two dowel sleeves 2 into the rear oil seal holder, ensuring the protrusion of the sleeves 6.5 + 0.2 mm from the side opposite to the cylinder block.Clean the mating surfaces of the holder and the cylinder block from the remnants of the old gasket, dirt, oil and degrease. On the surface “D” of the holder, mating with the block of cylinders, apply KLT-75TM sealant or similar sealant type TV-1215 from “Three Bond”.Place the holder with the oil seal on the mandrel 41.7853.4011 and slide it from the mandrel onto the crankshaft flange. Attach the holder to the cylinder block with bolts and nuts.Install the flywheel on the crankshaft so that the mark (tapered hole) near the rim is against the axes of the crankshaft connecting rod journals. Install the flywheel washer and bolts, secure with the retainer (see Figure 2-13) and tighten the flywheel bolts.Match the pistons of the same weight group to the cylinders by class and assemble the pistons with connecting rods as described below. Using the bushing from the set A. 60604, insert the pistons with connecting rods into the cylinders (Fig. 2-18).Rice. 2-18. Installation of a piston with piston rings into a cylinder using a mounting sleeve from kit A. 60604The set includes bushings of normal and repair sizes for pistons. Adjustable bushing 67.7854.9517 can also be used.Install the bushings in the connecting rods and the connecting rod caps. Install the connecting rods and covers on the crankshaft journals, tighten the connecting rod bolts. The connecting rod caps must be installed so that the cylinder number on the cover is opposite the cylinder number on the lower connecting rod head.Using a mandrel 67.7853.9580, press the front crankshaft oil seal into the oil pump cover. Pour some engine oil into the oil pump and turn the pinion gear several times. Install the oil pump with the crankshaft front oil seal on the mandrel 67.7853.9580 and turn the drive gear so that it can be put on the front end of the crankshaft. Slide the pump from the mandrel onto the shaft, place a gasket under the pump and attach it to the cylinder block.The hole for the pin on the piston is offset from the axis by 1.2 mm, therefore, when installing the pistons in the cylinders, the arrow on the piston crown must point towards the camshaft drive.For correct installation of the pump, two guide pins are pressed into its housing (Fig. 2-19), which must go into the corresponding holes in the cylinder block.Rice. 2-19. Oil pump guide pinsInsert an oil receiver with an O-ring into the hole of the oil pump, attach it to the oil pump and the crankshaft center main bearing cap (see Fig. 2-12).Install the oil sump 5 with gasket 4 and secure it.Install on the cylinder block and bolt the oil filter flange with gasket, Screw the oil pressure warning lamp sensor into the flange. Lubricate the oil filter O-ring with engine oil and screw the oil filter onto the flange fitting by hand.Insert the two centering sleeves into the cylinder block (Figure 2-20) and position the cylinder head gasket over them.Rice. 2-20. Bushings for centering the head on the cylinder blockWhen assembling the engine, always install a new gasket under the cylinder head. The use of a used gasket is not permitted. Before installing the gasket, it is necessary to remove oil from the mating surfaces of the block and the cylinder head. The gasket must be clean and dry. Oil should not come into contact with the surface of the gasket. In case of oil ingress, degrease the gasket.Turn the crankshaft so that the pistons are in the middle of the cylinders.Place the cylinder head on the centering sleeves, assembled according to the instructions in the chapter “Special features of engine repair”. Tighten the cylinder head bolts in a specific sequence (Fig. 2-21). Tighten the cylinder head bolts in four steps to ensure a reliable seal and prevent bolt tightening during vehicle maintenance:1 reception - tighten the bolts to a torque of 20 N m (2 kgf m);2nd reception - tighten the bolts to a torque of 70.0-85.0 Nm (7.1-8.7 kgfm);3rd reception - tighten the bolts 90 °;Step 4 - Tighten all bolts 90 ° again.Rice. 2-21. The order of tightening the cylinder head boltsThe cylinder head bolts may only be reused if they are extended to a maximum length of 135.5 mm (see Fig. 2-57). If the bolts are larger, replace them with new ones. Before assembling the engine, lubricate the threads and bolt heads by dipping them in engine oil. Then let the excess oil drain off. Remove oil from the bolt holes in the cylinder block.Insert a coolant pump with a gasket into the cylinder block socket. Install the rear timing belt cover and attach it together with the pump cover to the cylinder block. Additionally secure the rear timing belt cover with a bolt to the block and a nut to the stud on the cylinder head.Before installing the coolant pump, make sure that the pump pulley is securely connected to the roller by applying a torque of 24.5 N · m (2.5 kgf · m) to the pulley. The pulley should not turn.

Insert the segmented keys into the slots on the front ends of the crankshaft and camshaft and install the toothed pulleys. Hold the camshaft pulley against turning with special tool 67.7811.9509 and secure it with a bolt and washer. Before installing, apply UT-6 sealant to the bolt thread.It is forbidden to replace the flywheel mounting bolts with the camshaft pulley mounting bolt and vice versa due to their different coating. The flywheel bolts are phosphated and the camshaft pulley bolt is oxidized.Using the tool 67.7811.9509, turn the camshaft until the mark on the pulley aligns with the locating tab on the rear toothed belt guard (Fig. 2-22).Rice. 2-22. Checking the coincidence of the timing marks on the camshaft pulley and the rear toothed belt guardTurn the crankshaft towards a smaller angle of rotation until the alignment mark on the pulley aligns with the mark on the oil pump cover (Fig. 2-23). You can turn the crankshaft with a wrench using a bolt temporarily wrapped in the front end of the crankshaft.Rice. 2-23. Checking the coincidence of the timing marks on the crankshaft pulley and the oil pump coverDo not rotate the crankshaft and camshafts until the timing belt is installed. This will cause pistons to hit the valves and damage valves and pistons.Install the idler roller with axle (or without axle if roller with plastic rim) and spacer ring. Secure it in the position of minimum belt tension.Put the toothed belt on the crankshaft pulley and, pulling both branches, put the left branch behind the tension roller and wrap it around the coolant pump pulley. Slide the lower part of the belt onto the crankshaft pulley. When installing the belt, avoid sharp bends (with radii less than 20 mm) so as not to damage the glass cord of the belt.Tension the belt slightly with the idler pulley, turn the crankshaft two turns in the direction of rotation and check the alignment of the timing marks (see Figures 2-22 and 2-23).If the marks do not match, repeat the operation to install the belt, correcting the position of the camshaft pulley. If the marks coincide, adjust the belt tension and clearances in the valve mechanism, as indicated in the chapter “Features of engine repair”. Install and bolt the front toothed belt cover.Carefully fit the gasket into the groove of the cylinder head cover around the entire circumference. Install the cover on the cylinder head, put the rubber grommets on the studs and nuts with washers. If the bushings show signs of destruction, then replace them with new ones. Tighten the nuts evenly in several steps until the washer stops in the stud. Remember that the tightness of the cover depends on the carefulness of all operations on its installation.Install the spark plugs and coolant temperature gauge gauge into the cylinder head.Install the outlet pipe 2 (Fig. 2-10) of the cooling jacket with a gasket on the cylinder head and secure it with two nuts. Install the gasket and attach the coolant pump inlet pipe flange 3 to the cylinder block. Put the hoses going to the thermostat on the branch pipe and the inlet pipe, install the thermostat 4 and tighten the hoses with clamps.Install the accessory housing with an O-ring on the cylinder head and secure it with a bolt. When installing the housing, pay special attention to the position of the O-ring in the groove, as when tightening the bolt, the ring may jump out of the groove and bite between the groove edges and the surface of the cylinder head. If the O-ring shows biting marks, it must be replaced with a new one.Install the heat-insulating spacer with gaskets, the pusher and the fuel pump (see subsection “Installing the pump on the engine”).Lubricate with engine oil and slide the O-ring onto the spark torque sensor flange. Attach the sensor to the accessory housing so that the middle mark on the sensor flange is against the locating tab on the accessory housing (Figure 2-24). The sensor shaft is only connected to the camshaft shank in one position when the camshaft clutch cams enter the grooves of the camshaft shank.Rice. 2-24. Installation of the spark moment sensor. The arrow shows the locating protrusion on the housing of the auxiliary unitsAttach the power unit front suspension bracket to the cylinder block. Fix the tensioning bar 2 (Fig. 2-25) of the generator with an eye on the cylinder head and install the generator by attaching it to the tensioning bar and to the bracket 4 of the front suspension support of the power unit.Rice. 2-25.Generator installation: 1 - generator drive pulley; 2 - tension cap; 3 - generator; 4 - support bracket for the front suspension of the power unit; 5 - alternator drive beltSlide the generator drive pulley onto the crankshaft and secure it with a bolt and washer. Place the belt on the crankshaft and alternator pulleys and adjust the tension.Put a gasket on the cylinder head studs, install and secure the intake pipe with the carburetor intermediate lever bracket. Install the carburetor with the gasket, secure it with nuts and close the process plug on top. Remember that tightening the nuts to the required torque should only be done on a cold carburetor (engine). The tightening torques of the carburetor mounting nuts are given in Appendix 1.Install the throttle rod by connecting it to the carburetor and to the intermediate arm on the intake manifold.Slide the crankcase ventilation hose onto the connections on the cylinder head cover and rear oil seal holder. Secure the hose with hose clamps. Install the oil level indicator.The upper part of the oil level gauge must be in a vertical position, since the gauge is curved and does not fit into the cylinder block in another position.Install the gasoline supply hose from the fuel pump to the carburetor and secure it with clamps. Install the spark moment sensor vacuum regulator hose and the crankcase ventilation hose from the cylinder head to the carburetor.Put on and fasten the heater hoses with clamps to the outlet pipe of the cylinder head and the inlet pipe of the coolant pump.