RU2710089C1 - Device for balancing suspension of vehicle wheels - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to transport machine building. Device of balanced suspension of vehicle wheels comprises at least two driving axles interconnected by balance suspension. Suspension comprises spring-loaded springs, reactive levers and lengthwise tie rods interconnected with axles and bearing system and shock absorbers. Springs are connected with frame or body by means of connecting unit. Unit comprises support with bed and axis of rotation, bracket for attachment to bearing system, transfer box installed between axles of vehicle on own rolling axis. Support supports axles against transverse displacement. Transfer box is connected by cardan gears with power plant of vehicle, reduction gears of drive axles and lengthwise hinged link with one of driving axles.

EFFECT: increased flotation ability and durability of vehicle.

1 cl, 2 dwg

Description

The invention relates to the field of transport engineering, and more specifically to off-road vehicles having several driving axles, cross-country vehicles.

There are various designs of balancer suspensions aimed at improving the cross-country ability and reliability of various vehicles.

Known balancer suspension of a multi-axle vehicle (RF No. 88419), located between the frame and the first, second axles, on longitudinal semi-elliptic springs.

Known balancing wheel suspension of a car having three or more axles, and two of them are located close to each other (RF №2321501). The suspension of the wheels of the car contains balanced springs, interconnected with two bridges. On each side of the car, two springs are balanced. The ends of the springs are mounted in brackets connected to the bridges. One bracket has a swing support fixed relative to the bridge. The second bracket is interconnected with a swing support floating along the bridge.

Known suspension of multi-axle vehicles of medium and heavy lifting capacity (RF №2605958). The balancer suspension contains on each side of the vehicle two balancing springs, the ends of which are mounted in brackets connected to the bridges. One bracket has a swing support fixed relative to the bridge, and the second bracket is interconnected with a swing support floating along the bridge. In the brackets of the springs are installed swing joints with longitudinal U-shaped guides. The lower hinges are made in the form of crosses. Beams of bridges are located inside the guides. In one of them, the bridge beam is fixed on the swing support, in the other, the bridge beam is installed in the crosshead, which is fixed on the swing support.

A vehicle is known that contains two driving axles connected by a balancing suspension made with longitudinal semi-elliptic springs and a transfer case with a hinged mount to the body or frame of the vehicle coaxial to the hinge mounting of longitudinal semi-elliptical springs of the balancing suspension to the body or frame of the vehicle (RF patent No. 246068 ) The all-terrain vehicle qualities are improved by optimizing the length of the splined joints in the composite cardan shafts connecting the transfer case to the gearboxes of the drive axles with a coordinated rotation in a vertical plane around a common geometric axis.

The technical result of the invention is a combined increase in off-road capabilities of vehicles (throughput and reliability (reduction of breakdowns), increased durability in difficult road conditions).

The technical result is achieved by the fact that in the device of the balancing suspension of the wheels of the vehicle with at least two driving axles, interconnected by the balancing suspension with longitudinal springs connected to the supporting system, for example, the frame or the body of the vehicle, the suspension contains balancing springs, interconnected with bridges and the supporting system, reaction levers and longitudinal rods, shock absorbers, while the springs are connected to the frame or body by means of a connecting unit containing its support of a special design with pastels and with an axis of rotation, which keeps the bridges from lateral displacement and the mounting bracket to the supporting system, also contains a transfer box mounted between the vehicle bridges on its own axis of rotation, connected by cardan transmissions to the vehicle’s power plant, gearboxes leading bridges and longitudinal articulated traction with one of the leading bridges, due to which a coordinated rotation of the transfer case from the movement of the leading bridges in vertical plane, as a result, the angles of fracture of the crosses in the spline joints of cardan shafts connected to the transfer case are optimized.

The longitudinal articulated link connecting the transfer case to one of the drive axles can be made adjustable to fine-tune the position of the transfer case relative to the drive axles.

It is advisable that the connecting node connecting the springs with the frame or the body of the vehicle consisted of a mounting bracket made of two cheeks interconnected, mounted on the frame, and supports of a special design with an axis of rotation and a pastel consisting of restrictive cheeks and a support body mounted with a bracket on one axis, while the support is located between the cheeks of the bracket which are pulled together by a large cross-section bolt passing through the axis of rotation.

It is also advisable that the springs are centered relative to the supports with the springs tightening bolts and pulled to them by step ladders through the liners, and also additionally compressed between the cheeks of the supports, which prevents the springs from moving laterally, with bolts, to a certain amount limited by spacer bushes, and the fastening of the springs to the supports was carried out, preferably with an offset to the front axle in the direction of travel.

In addition, it is advisable that the balancing suspension contains telescopic shock absorbers and chippers, while the movement of the bridges down is limited by telescopic shock absorbers, which are pivotally attached at one end to the frame or body, and the other to the respective axles, and up - chippers mounted on the frame or a body and reciprocal platforms of chippers on bridges.

The invention is further illustrated by the description and figures. which show:

in FIG. 1 - the device of the balancing suspension of the wheels of the vehicle according to the invention, a General view,

in FIG. 2 shows a construction of a balancing suspension connecting unit according to the invention.

The balancer suspension device according to the invention in FIG. 1 is shown by the example of the suspension of wheels of an all-wheel drive vehicle with two driving axles 9 and 10, where the bridge 10 is rear in the direction of travel, which are interconnected by springs 8 and a system of longitudinal rods 4, 5 and rocket levers 15, 16 through frame 1.

According to the invention, the suspension comprises longitudinal springs 8, which are connected to the bridges 9, 10 by means of hinge joints 18, the springs are pivotally attached to the frame 1 by means of a connecting unit, mechanically holding the bridges 9, 10 from lateral displacement and at the same time providing free rotation of the bridges.

In FIG. 1 and FIG. 2 shows longitudinal semi-elliptic springs 8 as multi-sheeted ones, however, they can be of any other design depending on operating conditions and type of vehicle.

In FIG. 2 shows the optimal design of the connecting node. The connecting unit includes a bracket 7 made of two cheeks connected to each other, mounted on a frame 1, and a support 22 of a special design with an axis of rotation 21 and a pastel consisting of restrictive cheeks 27 and a support housing mounted with a bracket 7 on one axis 21, while the support 22 is located between the cheeks of the bracket 7 which are pulled together by a large cross-section bolt passing through the axis of rotation 21. Such a connection of the support 22 allows only swing relative to the axis 21, and the location of the support 22 between the two cheeks of the bracket 7, which are pulled together by a large cross-section bolt passing through the axis 2, does not allow skew.

The springs 8 are centered by tightening bolts 28 relative to the support 22. FIG. 2 springs 8 are attracted to the supports 22 by means of step ladders 24 through the liners 25, and are also additionally compressed between the cheeks 27 of the supports 22, which prevents the springs from being laterally displaced by means of bolts 29 by a certain amount limited by spacers 26. The springs 8 are hinged to the supports 22 is made, preferably, offset to the middle drive axle 9 (in the direction of travel). The need for displacement and its value is determined by calculation or experimentally to increase the reliability and durability of the springs.

This design reliably provides free rotation of the axles relative to axis 21 and with long suspension travel, mechanically keeps the axles 9, 10 from lateral displacement, eliminates the occurrence of additional loads on the frame, which eliminates the use of commonly used devices or rods that hold the axles 9, 10 from lateral displacement, (for example Panhard draft). This increases the cross-country ability and reliability of the vehicle.

The balancer suspension device according to the invention also comprises a transfer case 13 and a longitudinal articulated rod 6.

The torque from the power plant of the vehicle is transmitted to the input shaft 20 of the transfer case 13, and then through the driveshafts 12 is transmitted to the gearboxes of the drive axles 9, 10.

The transfer case 13 is attached to the frame 1 using supports 11 and has its own axis of rotation 23, the location of which corresponds to minimizing the angles of fracture of the crosses of the cardan shafts 12 and the input cardan shaft (not shown in the figure) connected to the shaft 20, when the axles 9, 10 are moved The location of the transfer case 13 can be determined by calculation or experimentally and depends on the type of vehicle and the geometry of the applied rods and levers.

The transfer case 13 is connected to the rear axle 10 by a longitudinal articulated link 6. In this case, one end of the link 6 is connected to the transfer case 13 through the reaction lever 14, and the other via the reaction lever 17 with the rear axle 10. By means of the link, levers and bearings 11, the transfer case box 13 is kinematically connected with the frame 1 and the rear drive axle 10.

It is advisable that the longitudinal rod 6 was made adjustable to fine-tune the position of the transfer case 13 relative to the drive axles 9, 10 in order to reduce the angle of fracture of the universal joints of the driveshafts to increase the durability of the vehicle.

Thus, the transfer case 13 has the possibility of dependent rolling on the axis 23 relative to the bridges 9 and 10, which allows optimizing the bending angles, the stroke in the splined joints of the cardan shafts 12 and the input cardan shaft from the gearbox of the vehicle (not shown in the figure), and thus Thus, to increase the overall stroke of the bridges 9, 10, increasing the cross-country ability and durability of the vehicle.

The balancing suspension device is equipped with telescopic shock absorbers 2, which are pivotally attached at one end to the frame 1, and the other to the respective bridges, fenders 3 mounted on the frame 1, and their corresponding platforms of fenders 19 on the bridges, which together limits the movement of the bridges down - up, respectively.

In the hinge joints 18 of the bridge and spring 8, silent blocks are used, which significantly reduce the twisting loads on the leaves of the springs 8, ensuring their high durability.

Rabat balancing suspension of the car is as follows.

With the rectilinear movement of the car, traction and braking forces from the wheels, axles 9 and 10 are transmitted to the rocket levers 15, 16 and swivel joints 18, then through the springs 8 to their supports 22, the axle 21 of the spring support and through the hinges of the longitudinal rods 4 and 5 to the brackets mounting the springs 7, then onto the frame 1. Reactive moments from the traction and braking forces arising on the bridges 9 and 10 are perceived by the levers of the bridges 15, 16, then through the longitudinal rods 4 and 5 to the brackets 7 on the one hand, and on the other, through swivel springs 18, then through springs 8, spring supports p 22 and axle 21 to the same bracket supports 7. Springs 8 and longitudinal rods 4 and 5 are arranged at different heights, which allows to eliminate from the balancing suspension design additional jet thrust (at least two).

When driving in a turn, centrifugal forces tend to move the car relative to the bridges 9, 10 and the track of the vehicle, while the loads from the frame 1 are perceived by the brackets of the supports of the springs 7, the axes of rotation of the springs 21, the supports of the springs 22, the springs 8 through the cheeks of the supports 27, swivel joints 18 from which to the bridges 9, 10 to the wheels of the vehicle.

When hitting an obstacle of both wheels of the vehicle of the front axle 9 of the balancing suspension, the force from the axle 9 is transmitted to two articulated joints 18 of the front axle, then to two springs 8 mounted on the supports 22. The springs 8 are supported by the articulated joints 18 on the rear axle 10 and its wheels, while the supports of the springs 22 are rotated on the axis 21, raising the axis of rotation of the springs, brackets 7, frame 1. The position of the bridge 10 will shift relative to the axis of rotation of the springs 21 with the force through the roar of the bridge 17, a longitudinal adjustable rod 6 tsya lever on the transfer case 14 by turning the transfer case 13 with respect to the axis of rotation 23 to the matched angle depending on the displacement of the bridge 10. This operation is achieved by minimizing angles crosspieces and stroke in splines driveshafts connected to the transfer box 13 during articulation of the suspension equalizer.

When hitting an obstacle of one of the wheels of the bridge, for example, the right wheel of the rear axle 10 of the balancing suspension, the bridge experiences a transverse roll. The right side of the bridge 10 is lifted, the force is transmitted to the hinge 18 of the bridge, then to the spring 8 of the right side, the support of the spring 22, the axis of rotation 21, the right bracket 7 and frame 1.

Thus, the balancer suspension device according to the invention improves the off-road capabilities of vehicles, increasing cross-country ability and reliability (reducing breakdowns), and also increases durability in difficult road conditions.

The balancing device of the wheel suspension according to the invention can be implemented in any wheeled vehicles having at least two driving axles with a bearing system in the form of any type of frames (conventional, hardened, side members and others) or a body.

Claims (2)

1. The device of the balancing suspension of the wheels of the vehicle with at least two driving axles, interconnected by a balancing suspension with longitudinal springs associated with a supporting system, for example, a frame or a vehicle body, characterized in that the suspension contains balancing springs interconnected with bridges and the carrier system, rocker arms and traction rods, shock absorbers, wherein the springs are connected to the frame or the body by means of a connecting unit comprising a support with the bed and the axis of rotation, which keeps the bridges from lateral displacement, and the mounting bracket to the supporting system, also contains a transfer box installed between the vehicle bridges on its own axis of rotation, connected by cardan transmissions to the vehicle’s power plant, drive axle gearboxes and longitudinal articulated traction with one of leading bridges. 2. The device of the balancing suspension according to claim 1, characterized in that the connection unit of the springs with the frame or the body of the vehicle consists of a mounting bracket made of two cheeks connected to each other, mounted on a frame, and a support with an axis of rotation and a bed consisting from the limiting cheeks and the support body mounted with the bracket on the same axis, the support being located between the bracket cheeks, which are pulled together by a large cross-section bolt passing through the axis of rotation.

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