Steering device. Steering steering Ruleler Niva 21213

27.09.2019

Steering - with a mechanical connection, without an amplifier. The steering mechanism is "a global worm - a two-graze roller", gear ratio of the gearbox - 16.4.

On the inner (short) tip - right thread, on the outer - left.

On the coupling coupling, the thread is also of different directions, so when it turns it, the length of the lateral thrust may increase or decrease, which is needed to adjust the convergence of the wheels.

The coupling is fixed on the tips of the tight clamps. At the ends of the steering, there are ball hinges. Their fingers have a conical landing in the levers and fixed in them with naits with linings.

The ball head rotates in the plastic liner, pressing the spring to the hinge body. The other end of the spring rests on the steel plug, sprung into the hinge body.

Due to the taper of the outer surface of the liner and the inner surface of the hinge body, when tipping the liner, the backlash is selected between the liner and the ball head of the finger.

When jamming the hinge or tangible, it is replaced with it steering cravings (steering tip).

From moisture and mud hinge is protected by a rubber cover, pressing on the body.

If the cover is damaged, immediately replace it, removing the old lubricant from the surface of the hinge and adding a new one (SRB-4).

The bracket of the pendulum lever is attached to the right side member with two bolts with self-locking nuts.

Case bracket - cast, from aluminum alloy. It has two plastic bushings in which the axis of the pendulum lever rotates.

On top and bottom to the axis, the washers are put on, which push the sleeve to the bracket housing. The lower washer rests on the pendulum lever, fixed on the axis self-locking nut, the top - in the nickety with a pin.

This nut is tightened on the removed bracket so that the pendulum lever does not turn under its own weight, but only under load 1-2 kgf.

Litol-24 lubrication is laid on the working surfaces of the sleeves and into the space between the axis and the case. To protect against dirt, two rubber sealing rings installed between the washers and the lever housing are served.

When wearing the bushings, they are replaced by, with the wear of the housing or axis, replace the bracket. The steering mechanism is attached by three bolts with self-locking nuts to the left side member.

Its housing is cast, from aluminum alloy. In its lower (elongated) part, two bronze bushings are pressed, in which the shaft of the steering tower rotates.

On the lower slotone end of the shaft of the nut the steering tower is fixed (it is installed on the shaft only in a certain position).

At the top of the shaft, a tide with a neckline was made; It has a two-graze roller, rotating in ball or needle bearings.

The T-shaped groove on the top end of the shaft includes a screw head that is regulated by the gap between the roller and the worm (see below).

Axial backlash head in the groove should not exceed 0.05 mm; This is achieved by the selection of the thickness of the adjusting plate worn on the screw.

The screw moves along the thread in the steering cover and stops the nut and the curly washer.

With a properly adjusted gap, the moment of turning the craft shaft (with the filmed tower shaft) should be within 20-49 N.SM.

If it is less, reduce the thickness of the package of pads, if more - increase.

After installing the tower shaft, the gap in the engagement of the roller with the worm: the moment of resistance to turning the Worm shaft when turning 30 ° to the right-left from the middle position should be 88-118 N.Sm, and at large angles - no more than 69 N.Sm.

In practice, the simplest control is as follows: on the removed steering mechanism, the worm shaft must turn from the hand with a noticeable increase in effort near the middle position, the axial loft of the shaft should not be.

For filling the oil into the steering mechanism, a hole closed with a threaded plug is provided in the top cover.

Transmission oil They poured to the edge of this hole (0.215 l), they control the level.

Oil leakage is possible from under the bottom of the Worm shaft bearing cover (due to its deformation) or through the glands of the cushion shafts and the worm.

Repair of the gearbox at home (with the exception of adjusting the gaps and replace the glands) is not recommended.

The steering shaft is two-link, consists of the upper and intermediate shafts.

The upper shaft rotates in two bearings with rubber bushingsfucked in the tree bracket tube.

In the lower part to the shaft, a ring with a groove is welded, which includes a shut-off rigel anti-theft device.

On the upper slotted end of the shaft fixed steering wheel, His fastening nut is blocked.

The intermediate shaft has on the ends cardan hinges with cut slotted tips, tightened by bolts; The bottom is connected to the Worm shaft, the top - with the upper steering shaft.

The injuries of the steering is ensured by folding the steering shaft due to driven hinges and a special fastening of the steering shaft bracket.

The latter is attached to the body bracket at four points: on top - on welded bolts with nuts and washers, from below - with special tear-off bolts with fixing plates.

In the collision of the edge of the locking plates deform and skip through the rectangular holes of the steering shaft bracket. At the same time, due to the folding of the steering shaft, the steering wheel moves not back, and up and forward, reducing the likelihood of injuries of the driver's chest.

Possible Faults of the steering and elimination methods

- Cause of fault

Development method

Increased steering wheel

Weakened steering crankcase fastening bolts

Tighten the nuts

Weave the nuts of the ball fingers

Check and tighten the nuts

Adjust the gap

Increased gap to engage roller with worm

Adjust the gap

Too big gap between the axis of the pendulum lever and sleeves

Enlarged Clearance In Bearings Worm

Adjust the gap

We have weakened the bolts of the intermediate shaft to the tree of the worm or to the top shaft of the steering mechanism

Tighten the bolts

Tight rotation of the steering wheel

Deformation of the steering parts

Replace deformed details

Incorrect installation of front wheels

Check the wheel setting and adjust

Adjust the gap

Tightened adjusting nut axis of the pendulum lever

Low pressure in front wheels

Set normal pressure

Damage to the parts of the ball hinges

Check and replace damaged parts

There is no oil in the steering mechanism crankcase

Check and make a frace. Replace the gland if necessary

Damage of the Bearings of the Upper Steering Shaft

Replace bearings

Noise (knocks) in the steering control

Increased gap in front wheels hub bearings

Adjust the gap

Check and tighten the nuts

Increased gap between the axis of the pendulum lever and bushings

Replace bushings or bracket assembly

The adjusting nut of the axis of the pendulum lever is weakened

Adjust the tightening of the naika

Cleared the gap in the engagement of the roller with a worm or in the Bearings Worm

Adjust the gap

Increased gap in ball hinges steering

Replace tips or steering

Weakening of the fastening of rotary levers

Tighten the nuts

Weakening bolts fastening the intermediate steering shaft

Tighten the bolt nuts

Self-exchanging angular oscillation of the front wheels

Tire pressure does not match the norm

Increased gap in front wheels hub bearings

Adjust the gap

Sibalance wheel

Balance the wheels

Weakening of nuts ball fingers steering

Check and tighten the nuts

Weakening of the crankcase fastening of the steering mechanism or bracket of the pendulum lever

Check and tighten bolt nuts

Violated the gap in the engagement of the roller with a worm

Adjust the gap

Algae from straight movement in any one side

Tires unequal pressure

Check and install normal pressure

The angles of the installation of the front wheels are impaired

Check and adjust wheel installation angles

Various sediment of front suspension springs

Replace unsuitable springs

Deformed swivel fists or pendant levers

Check the fists and levers, unfit details replace

Incompleteration of one or several wheels

Check the state of the brake system

Instant car

The angles of the installation of the front wheels are impaired

Check and adjust wheel installation angles

Increased clearance in front wheel bearings

Adjust the gap

Weakening of nuts ball fingers steering

Check and tighten the nuts

Too big gap in ball hinges steering

Replace tips or steering

Weakening of the crankcase fastening of the steering mechanism or bracket of the pendulum lever

Check and tighten bolt nuts

Increased gap in the engagement roller and worm

Adjust the gap

Deformed swivel fists or pendant levers

Check the fists and levers; Replace deformed details

Oil leak from crankcase

Cushion shaft oil wear or worm

Replace the gland

Weakening bolts, fastening steering cutter cover

Tighten the bolts

Damage to sealing pads

Replace stripping

Steering on "Niva" can be with a hydraulic agent (starting from 2009), without a hydraulic agent, as well as an equipped airbag. From November 1998 to increase passive security A telescopic intermediate shaft is installed on cars instead of a cylindrical intermediate shaft, and the steering wheel is fixed with self-locking nut.

Steering mechanism assembly with drive (without a hydraulic device)


1 - Cup; 2 - average traction; 3 - body of the bracket of the pendulum lever; 4 - lever axis; 5 - pendulum lever; 6 - sleeve; 7 - adjusting nut; 8 - the inner tip of the thrust; 9 - adjustment coupling; 10 - lower ball support; 11 - swivel fist; 12 - upper ball support; 13 - swivel lever;	14 - the outer tip of the thrust; 15 - tie clashes; 16 - right spar; 17 - the top cover of the crankcase; 18 - steering mechanism; 19 - seal; 20 - Worm shaft; 21 - Bracket shaft; 22 - intermediate shaft; 23 - upper shaft; 24 - steering wheel; 25 - left spar.

Top shaft

11 - Bearing of the upper shaft; 12 - Bracket fastening the steering shaft; 13 - lock sleeve; 14 - pipe bracket fastening shaft steering; 15 - upper steering shaft;

Steering device with hydraulic (since 2009)

View of the car on the steering elements

The location of the steering elements by car:1, 7 - external tips of steering 2, 6 - adjustment couplings; 3, 5 - internal tips of steering; 4 - hydraulic power pump; 8 - steering mechanism; 9 - average traction; 10 - pendulum lever

The hydraulic amplifier system includes a blade pump, a tank for working fluid, Fluid supply hoses and removal and steering mechanism.

Steering hydraulic system system: 1 - steering hydraulic power pump; 2 - gasket; 3 - bolt-fitting; 4 - Hose high pressure; 5 - Supporting hose; 6 - Tank tube with indexed fluid level; 7 - Tank; 8 - clamp; 9 - steering mechanism; 10 - Low Pressure Hose

Description of the steering

Steering - with mechanical connection, without amplifier. The steering mechanism is "a global worm - a two-graze roller", gear ratio of the gearbox - 16,4 .

In the variant version, the car is equipped with a steering power steering significantly reduced the effort on the steering wheel. If the steering power steering does not function (for example, when towing a car with a non-working engine), the ability to control the car is saved, but for this you need to apply a much greater force to the steering wheel.

The steering trapezium is formed by three steering traction (one average and two side), compass, pendulum lever and swivel fist levers. Side traction consists of two tips connected by a threaded cutting clutch. On the inner (short) tip - right thread, on the outer - left. On the coupling coupling, the thread is also of different directions, so when it turns it, the length of the lateral thrust may increase or decrease, which is needed to adjust the convergence of the wheels. The coupling is fixed on the tips of the tight clamps.

At the ends of the steering, there are ball hinges. Their fingers have a conical landing in the levers and fixed in them with naits with linings. The ball head rotates in the plastic liner, pressing the spring to the hinge body. The other end of the spring rests on the steel plug, sprung into the hinge body. Due to the taper of the outer surface of the liner and the inner surface of the hinge body, when tipping the liner, the backlash is selected between the liner and the ball head of the finger.

To make sure that the liner is not flared in the housing, hand or mounting spatula are pressed on the hinge body in the direction of the finger - while the finger should go inside the housing by 0.5-1.5 mm. When the hinge is jammed or tangible, the steering craving (steering tip) is replaced in it. From moisture and mud hinge is protected by a rubber cover, pressing on the body. If the cover is damaged, immediately replace it, removing the old lubricant from the surface of the hinge and adding a new one (SRB-4).

The bracket of the pendulum lever is attached to the right side member with two bolts with self-locking nuts. Case bracket - cast, from aluminum alloy. It has two plastic bushings in which the axis of the pendulum lever rotates. On top and bottom to the axis, the washers are put on, which push the sleeve to the bracket housing. The lower washer rests on the pendulum lever, fixed on the axis self-locking nut, the top - in the nickety with a pin. This nut is tightened on the removed bracket so that the pendulum lever does not turn under its own weight, but only under load 1-2 kgf. Litol-24 lubrication is laid on the working surfaces of the sleeves and into the space between the axis and the case. To protect against dirt, two rubber sealing rings installed between the washers and the lever housing are served. When wearing the bushings, they are replaced by, with the wear of the housing or axis, replace the bracket.

The steering mechanism is attached by three bolts with self-locking nuts to the left side member. Its housing is cast, from aluminum alloy. In its lower (elongated) part, two bronze bushings are pressed, in which the shaft of the steering tower rotates. On the lower slotone end of the shaft of the nut the steering tower is fixed (it is installed on the shaft only in a certain position). At the top of the shaft, a tide with a neckline was made; It has a two-graze roller, rotating in ball or needle bearings. The T-shaped groove on the top end of the shaft includes a screw head that is regulated by the gap between the roller and the worm (see below). Axial backlash head in the groove should not exceed 0.05 mm; This is achieved by the selection of the thickness of the adjusting plate worn on the screw. The screw moves along the thread in the steering cover and stops the nut and the curly washer.

There are two options for installing the roller of the tower tree roller: on needle or on the ball bearing.

The worm of the steering mechanism rotates in two balls of radially resistant bearings, the gap in which is regulated by the selection of pads between the housing and the bottom cover (the oil is poured out of the mechanism, at the end of the adjustment it is necessary to restore its level). With a properly adjusted gap, the moment of turning the craft shaft (with the filmed tower shaft) should be within 20-49 N.SM. If it is less, reduce the thickness of the package of pads, if more - increase. After installing the tower shaft, the gap in the engagement of the roller with the worm: the moment of resistance to turning the Worm shaft when turning 30 ° to the right-left from the middle position should be 88-118 N.Sm, and at large angles - no more than 69 N.Sm. In practice, the simplest control is as follows: on the removed steering mechanism, the worm shaft must turn from the hand with a noticeable increase in effort near the middle position, the axial loft of the shaft should not be.

For filling the oil into the steering mechanism, a hole closed with a threaded plug is provided in the top cover. The transmission oil is poured to the edges of this hole (0.215 l), they control the level. Oil leakage is possible from under the bottom of the Worm shaft bearing cover (due to its deformation) or through the glands of the cushion shafts and the worm. Repair of the gearbox at home (with the exception of adjusting the gaps and replace the glands) is not recommended.

The steering shaft is two-link, consists of the upper and intermediate shafts. The upper shaft rotates in two bearings with rubber sleeves spangled in the tree bracket tube. In the lower part to the shaft, a ring with a groove is welded, which includes a shut-off rigel anti-theft device. A steering wheel is fixed on the top slot end of the shaft, the nut of its attachment is blocked.

The intermediate shaft has on the ends cardan hinges with cut slotted tips, tightened by bolts; The bottom is connected to the Worm shaft, the top - with the upper steering shaft.

The injuries of the steering is ensured by folding the steering shaft due to driven hinges and a special fastening of the steering shaft bracket. The latter is attached to the body bracket at four points: on top - on welded bolts with nuts and washers, from below - with special tear-off bolts with fixing plates. In the collision of the edge of the locking plates deform and skip through the rectangular holes of the steering shaft bracket. At the same time, due to the folding of the steering shaft, the steering wheel moves not back, and up and forward, reducing the likelihood of injuries of the driver's chest.

In 1970, before the designers of the Volga Automobile Plant, which at that time had already mastered the production of the first model of the VAZ, was tasked to create a comfortable car increased passibility. At the development stage, many knots and aggregates of the Zhiguli moved to the prototype of the new model. The car turned out quite passenger outwardly, and off-road due to its characteristics of Pentility. At the same time, the cabin turned out to be almost identical with the passenger car.

In 1974, the first 15 samples were produced, which passed the full cycle of pre-serial tests. And in mid-1977 the first serial car VAZ-2121 came up from the conveyor. Some time after the launch of the conveyor, the car has gained high popularity due to its reliable design and excellent off-road characteristics. In the best years for exports went to 80% of the vehicles released. Not an unimportant role in such popularity of the car played a reliable and competently balanced design of the Niva, which allowed to operate the car in different climatic and road conditions. The combination of a system unit, suspension, rigid two bulk body, transmissions and a reliable steering, provided a long prolonged life on the conveyor. One of the important responsible car systems is considered to be steering, the heart of which is the steering gear.

A worm-type steering gearbox is applied on the field. It provides reliable control of the car at any speeds and in a different road atmosphere. The worm mechanism is equipped with a global type worm (variable shaft diameter) connected to an intermediate shaft, roller. At the outer part of the roller shaft, a tush is installed, which is activated by the rotary mechanism. The rotation of the steering wheel provides the movement of the tower through the worm transmission, it rotates the wheels.

Worm steering mechanism possesses low level Sensitivity to shocks and shocks transmitted from wheels on an uneven road. It has the ability to direct the VAZ car into large angles of rotation and, accordingly, provides excellent car maneuverability. The disadvantage of the worm gear is the complexity in production. Worm steering has many connections, which requires periodic configuration and adjustment.

Worm steering mechanism applied to passenger cars Increased patency S. dependent suspension controlled wheels, lungs trucks and buses. The simplicity of the design has an increased resource and a high degree of maintainability. A slight disadvantage may seem slightly increased effort on the steering wheel, arising in a number of reasons. After analyzing the design of the steering gearbox and the loads acting on it, we define the problem areas and ways to solve problems.

The basic is equipped with a worm pair that, when working, causes the steering resistance due to the friction of the worm and worm gear. This is the principle of worm gear, respectively, to completely get rid of this factor there is no possibility. The solution is applied high-quality lubricant In the gearbox and monitoring of the condition of working surfaces.

In the steering gearbox, two rolling bearings are installed (Worm shaft), two sliding bearings on the shaft shaft (it is also a worm wheel tree). The bearings themselves in a good and lubricant state provide reduced friction of the main parts (and, accordingly, reducing the effort on the steering wheel).

In addition, the pendulum lever will bring their contribution, which rotates on two sliding bearings and ensures the movement of the steering rack. The use of high-quality lubricant and periodic monitoring of the state of antherners, compounds and thrust will reduce the possibility of increased effort on the steering wheel.

Thirdly, six steering fingers should provide a high-quality compound, to work correctly in one planes with the system, and ensure the mobility of the steering mechanism.

Secrets of the mechanism

In addition, ball supports and their condition affect the effort. There are four supports on the VAZ 2121, while damage or breakage even one will lead to non-high-quality operation of the entire steering mechanism. Periodic monitoring of the state of anthers, the timely regulatory replacement of the ball, the use of high-quality spare parts positively affect both the reduction of efforts on the steering wheel and the controllability of Niva 2121 as a whole. New ball supports When replacing, it is necessary to check for the amount of lubricant and the integrity of the anther, since the leakage of the cap reduces the resource of the node and causes an increase in friction.

Two front wheels are significantly influenced, which turns into the corners of the road surface. This factor eliminate the laws of physics and the principles of vehicle management.

In all the main mechanisms, the fuel surfaces are metallic (polished, polished, chromed), the quality of their processing and the presence of lubrication are fundamental.

In the steering gearbox VAZ, the bay shaft is equipped with two supports with bronze sleeves, friction between the shaft and the enhanced housing. Bronze sleeves (sliding bearings), due to the fact that in the pair of steel-bronze, the friction coefficient is rather low. But it is still insufficient to achieve minimal resistance, this is paid to the presence of a sufficient amount of consistant lubricant in the steering gearbox. On the other hand, it is possible to use needle rolling bearings in return for bronze bushings.

The fundamental factor in the work of the rolling pair is a decrease in the area of \u200b\u200bcontact of moving parts, since the shaft does not concern the supports, but rotates in the housing through the needles. It occurs only to rolling resistance, which significantly reduces the resistance coefficient, and, accordingly, reduces the effort on the steering column.

In addition, the resource of parts and durability of the steering mechanism increases. Since the bronze sleeves perceive the load over the entire surface, and needle bearings only on rolling line. Applied steel kaneylene needles are able to withstand heavy loads arising in the steering mechanism, depending on the operating conditions of the VAZ 2121.

In the pendulum lever, the sliding bearings can also be replaced with rolling bearings. This will increase the acute management, give ease of control and will contribute to the reliability and durability of the steering mechanism. The periodic monitoring of the state of the anthers and the fingers of the connection with the rail will increase the resource of parts and will retain the ease of control of the Nija 2121.

The use of listed methods and compliance with the rules of periodic control and maintenance will allow to achieve certain results:

Effort on the steering wheel on different high-speed modesWhen maneuvering reverse And during parking. This increases the safety of the vehicle operation.
The level of shocks transmitted from wheels on the wheel on the uneven road is reduced. In this, a worm gearbox plays its role, which reduces the transfer of oscillations and jolts.
The resource of the operation of loaded parts increases, which increases the durability and reliability of the steering gearbox. If bronze bushings replace rolling bearings that have a longer service life and allowing to maintain seats.
The efficiency of the steering gearbox and the steering mechanism as a whole increases significantly, which contributes to an increase in the period of operation.
The effort on the steering wheel is reduced, which has a positive effect on driving a car VAZ.

Repair and assembly

Proper and timely maintenance of the steering gearbox is the key to durable and reliable operation, but there are cases when the breakdowns still happen. In this case, repair with full or partial disassembly is simply not avoiding. When repairing, it is necessary to pay attention to some features and important points, the use of which will increase the reliability of the mechanism and improve its characteristics.

To remove and disassemble the gearbox, it is necessary to hang the front of the machine, remove the steering thrust. From the salon to unscrew the bolt of fastening the supplied shaft from the shaft of the gearbox. Further, disconnect the gearbox from the spar, by unscrewing the three bolts with cash keys. IN motor compartment Remove the hoses and parts that are on the line of steering.

When the gearbox is unscrewed and removed from the shaft in the cabin, then pull it out with open space Wrapping to the left. Special attention must be paid to the state of the gaskets, their location and degree of wear. Not a reliable seal can lead to loss of lubrication or contamination of the inner cavities. The next step is to unscrew the cork and remove the oil from the steering gearbox, and then you need to unscrew the bumps.

The gearbox put on a stand of two boards so as not to damage the slots of the shaft and unscrew the nut, after - remove the tower. Additionally, you can turn the nut on the shaft to the mutual alignment of the ends. Next, disconnect the steering gear cover, gradually unscrewing the lock nut of the adjusting bolt and remove the lid, gradually shifting it towards the worm.

At the same time, it is especially accurate to be with gaskets if they are in a suitable state, with the slightest jam or reassessing - the gasket must be replaced. The next action takes out the shaft of the tower, you enter the worm shaft and remove the glands. All cavities must be rinsed and rub with a cloth, checking the presence of dents, chips of any other damage. It is also necessary to check the crankcase for the presence of metal chips, which indicates the wear of certain parts. It is necessary to check the gaps and backlats in the mating details, check the wear of the working surfaces. Conducting the steering gear defecting, if necessary, replace damaged parts.

We carry out the assembly in the reverse order, be sure to lubricate the details of the oil, and all the glands consistent lubricant (Litol). Install a new cover with adjusting screw. Mount the tower, tightening the nut as much as possible. Then we set the steering gearbox to the regular place, you must pay special attention to the connection of a worm with an intermediate shaft, throughout and inconsistency are not allowed.

It is also necessary to combine the direction of the tower and steering wheel. The average position of the bump can be determined by calculating the number of revolutions of the shaft and divide into two. Next, we tighten the nuts of the reduction of the gearbox (it is desirable to install new ones), we attach the steering thrust to the compound. We pour oil into the gearbox crankcase and the adjusting bolt choose the backlash in the steering gearbox. In order to avoid damage to the wheel tires and the loss of car charter VAZ 2121, it is necessary to diagnose the collapse (convergence) on the stand.

Adhering to these non-cunning recommendations, you can improve the controllability of the VAZ, improve the safety of the ride, the durability of the steering gearbox and the mechanism as a whole. The use of a worm-type steering gear on VAZ 2121 justifies itself a lot of not that years - decades. Having the need for periodic configuration and maintenance, the gearbox ensures trouble-free operation on the entire service life. The simplicity of design makes it possible to operate the car in any road conditions, without fearing that the steering wheel will bring. Reducer has high maintenance and easy to maintain.

Well no

1. Lateral thrust;
2. Cup;
3. Average traction;
4. Pendulum lever;
5. Adjusting clutch:
6. Lower ball hinge suspension;
7. Rounded fist;
8. Top ball hinge suspension;
9. Steering shaft bearing;
10. Bracket fastening the steering shaft;
11. Upper steering shaft;
12. Bracket pendulum lever;
13. The right side member of the body;
14. Lower contact ring:
15. Holder of the lower contact ring;
16. Signal switch holder;
17. Top contact ring;
18. Spring signal switch:
19. Audio switch;
20. Facing the signal switch cover;
21. The wire;
22. Top washer;
23. Sealant;
24. The sleeve axis of the pendulum lever;
25. Lower washer;
26. Tube of the oil-filling hole;
27. Protective cap;
28. Steering mechanism;
29. Steering shaft seal;
30. Intermediate steering shaft:
31. Fixing plate front of the body;
32. Upper part of facing casing;
33. Wiper and wizard switch lever:
34. Steering wheel:
35. Running indicator switch lever;
36. Headlight switch lever;
37. Lower part of facing casing;
38. Cutting Bolt Cardan Hinge:
39. Left Body Floor Spar;
40. Bottom cover of the steering mechanism;
41. Adjusting gaskets;
42. The axis of the roller of the shaft shaft;
43. Stubborn roller washer;
44. Roller;
45. Plate of adjusting screw;
46. Lock washer;
47. Adjusting screw;
48. Lock-nut:
49. The top cover of the steering mechanism:
50. Worm;
51. Bearing worm;
52. Blunt tree;
53. Shaft shaft oil seal;
54. Tumble shaft sleeve:
55. Tower shaft gland;
56. Tree shaft;
57. Protective case of the ball finger;
58. Bowl liner;
59. Ball finger:
60. Spring liner:
61. Stub.

There are two main parts of the steering: the steering mechanism and the steering wheel drive. The steering mechanism includes a worm gearbox, a steering shaft with an attachment bracket and steering wheel. Reducer, the gear ratio of which is 16, 4, is assembled in the Carter 28, cast from the aluminum alloy. Carter is attached to the left side carrier 39 body body three bolts. The worm 50, pressed on the shaft 52, relies on two balls of radial-resistant bearing 51, the gap in which is regulated by the gaskets 41, located under the bottom cover 40. The correctness of the bearing adjustment of the worm is checked by a torque of the coating shaft torque. It must be within 10-50 it (2-5 kgassm) in the position when the video does not fit with the worm (when assembling the steering mechanism). The end of the craft shaft feld from the crankcase is sealed with an oil carrier 53. A cardan hinge is fixed on the shlits of a worm with a coup bolt. Two-grade roller 44 rotates on axis 42 in needle or double row ball bearing. The roller axis is located in the holes of the shaft 56 of the tower, and its ends after the assembly is splown with the use of electrically heating. The engagement of the roller with a worm occurs with a displacement of 5, 5 mm, which allows you to adjust the clearance in the engagement of the worm pair. File 56 shaft is installed in two bronze bushings 54 pressed into the steering mechanism. The end of the shaft 56 at the outlet of the crankcase is sealed with a gland 55. The gap in the engagement of the roller with a worm is adjustable with screw 47, the head of which is located in the T-shaped groove of the tower shaft 56. The axial gap between the screw head and the shaft head is eliminated by the plate setting 45. To the spare Parts These plates are supplied with a thickness of 1, 95 to 2, 20 mm. The adjusting screw 47 is screwed into the cover 49 and is fixed from turning the figure with a furry washer with a mustache, which is included in the screw grooves, and the lock nut 48. The gap between the roller and the worm is eliminated when the adjusting screw 47 is wrapped in the cover 49. When adjusting the clearance, the bump must occupy the average position when adjusting the gap. What corresponds to the movement of the car in a straight line (the label on the tree of the worm and the Carter 28 must match). At the lower end of the Tshaka shaft there are conical slots, on which in a certain position, when combining the dual groove of Coskiso doubled the shaft slot, fastens the nut. Cup 2. The steering shaft consists of the upper 11 and intermediate 30 shafts. The intermediate shaft has two cardan hinge, one of which it connects with a worm shaft, to another - with the upper steering shaft. To prevent the movement of the intermediate shaft, the outer plugs of the joints are pulled by bolts that pass through the rings of the shafts. Supports for the top shaft are two needle bearing, located in the pipe of the steering shaft fastening bracket 10. On the upper end of the shaft 11 in a strictly defined position, which provides a dual groove in the wheel hub and the dual slot on the shaft, the steering wheel is installed 34 and is attached to the nut. Nut after tightening the moment 50 of them (5 kgfs) is cranked at one point. On the top of the bracket pipe 10, a triendy headlight light switch, turning pointers, wiper and windshield wizard are fixed. The steering injury is ensured by the feature of the fastening of the steering shaft bracket and the use of an intermediate shaft with cardan hinges. Bracket 10 is attached to four bolts to the car body bracket. The front part of the bracket 10 is attached through two locking plates 31. The edges of these plates at a certain load are bent and skipped through the rectangular holes of the bracket, i.e. There is a turn of the bracket 10 with respect to the rear points of the mount by deformation of the body bracket. At the same time, if a car collision with any obstacle occurs, the upper part of the steering shaft and the steering wheel are moved back slightly, and the power of the steering of the driver on the driver's body is sharply intends to ensure the safety of the driver during emergency situations. The steering shaft, together with the bracket 10, is closed with a facing casing 37, which consists of the upper and lower parts bonded with screws. The steering wheel drive consists of medium transverse traction 3, two lateral transverse thrust of 1, swivel levers, pendulum lever 4 and bias 2. The middle rod 3 is solid, on the ends it has ball hinges that it connects with a pendulum lever and a steering tower. Each side traction has two tips with threaded, interconnected by an adjusting clutch 5. The clutch is fixed on the tips of the thrust with two tight clamps. The rotation of the coupling 5 changes the length of the lateral thrust when adjusting the convergence of the front wheels. Outdoor lugs of lateral throws 1 ball joints are connected to the swivel levers, each of which is mounted with bolts to swivel fist. 7, the inner tip of the right side traction is connected to the pendulum lever, and the left side traction with a compartment. The ball joint hinge consists of steel finger 59, the spherical head of which relies on the conical liner 58, made of plastic with high anti-plasive properties. Spring 60, pressing the liner to the spherical head of the finger 59, creates the necessary tension in the ball hinge. The conical part of the finger enters the conical hole of the rotary lever (bump or pendulum lever) and is fastened with a crown nut. Ball hinges are filled with SRB-4 with lubricant and sealed with a cap 61, spilled in the thrust tip, and on the other, the reinforced protective cap 57. Replenishment or replacement of lubrication is not required during operation. The bracket 12 of the pendulum lever is fixed from the inside of the right side meter with two bolts with self-lock nuts. In the hole of the bracket 12 there are two plastic bushings 24, on which the axis of the pendulum lever is rotated. To the ends of the sleeves are underlying washers. The upper washer 22 is attached to the lies of the axis and is fitted with a crown nut. The lower washer 25 is pressed to the sleeve self-locking nut. The pendulum lever 4. The pendulum lever 4 was fixed on the axis. Between the end surfaces of the washers and the bracket housing of the pendulum lever are installed rubber sealing rings 23. When assembling the cavity between the sleeves is filled with literal lubrication, and the bushings are lubricated with the same lubricant.

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