DE202004000605U1 - Agricultural tractor trailer with hydraulically controlled tandem jointed cross shaft axle at rear end of trailer chassis - Google Patents

Abstract

An agricultural tractor has a trailer with a chassis coupled at the front to the tractor and a group of four wheels at the rear. The trailer front wheels are fixed in track. The rear wheels each side also provide steering. The rear wheels are fixed to a sub-frame at the rear of the chassis which is moved left and right by a hydraulic steering cylinder.

Description

The present invention relates on a vehicle trailer, preferably on an agricultural trailer.

Such trailers are known. In the DE 299 12 297 A describes a vehicle trailer with a steerable axle. The steering movement of the axle takes place by means of hydraulic amplification by a steering cylinder, which is supplied by the on-board hydraulics of a towing vehicle. The steering cylinder is controlled by a control valve which is actuated by a Bowden cable depending on the steering movement between the towing vehicle and the trailer.

Furthermore, from the DE 297 00 091 U1 a trailer is known which has a steerable pendulum tandem axle, the pendulum bars are mounted independently of one another in a central axle tube. The pendulum bars each hold the front and rear axle halves, so that the pendulum bars can swing independently of one another around the pendulum axis of the central axle tube. In order to reduce tire wear, the two rear axle halves are attached to handlebars that are rotatably mounted on steering pins. A tie rod connects the handlebars and is attached to their outer ends. A hy-draulic steering cylinder mounted diagonally between the center axle tube and the tie rod effects the steering of this pendulum tandem axle.

In agriculture, trailers are also needed Because of the high loads they are designed with multiple axes, but without additional ones high technical effort should meet the requirements, safely in the straight line to be safe and can be driven through curves.

The invention is therefore the object at bottom, a follower to create the relatively simple is built, which can carry high loads, which can be as is safe when cornering and has high driving stability.

This task is solved by a follower who has the features of claim 1.

Advantageous embodiments of the Invention can be found in the dependent Claims.

The advantages of the trailer according to the invention are in its robustness, its safe running properties and its Tire-friendly operation. Furthermore, the trailer is particularly agile.

With the help of the drawings should be based of an embodiment the invention even closer explained become.

It shows

1 a schematically illustrated trailer with towing vehicle;

2 a pendulum axis in plan view according to the prior art;

3 a pendulum axis in plan view according to the invention and

4 a detail of the axis 3 ,

In 1 is a highly schematized towing vehicle 1 with a trailer 2 shown. The towing vehicle 1 takes towards the trailer 2 an angle W from the longitudinal axis LZ of the towing vehicle 1 and the longitudinal axis LA of the trailer 2 is included. The towing vehicle 1 is with a cradle 3 which the towing eye 4 a drawbar 5 of the trailer 2 receives. drawbar 4 and recording 3 can also be realized by any other type of coupling between two vehicles.

Since it is vital that the coupling between the towing vehicle 1 and the trailer 2 is free of play, so that sufficient steering precision results, it is advisable to implement the coupling in the form of different ball couplings. Furthermore, in 1 shown that the towing vehicle 1 has an on-board hydraulic system H with which hydraulic units of the towing vehicle 1 be supplied. hydraulic lines 6 and 7 are for supplying a hydraulic cylinder 8th provided which is the steering cylinder of a steerable part of a pendulum tandem axle 9 of the trailer 2 forms. The steering cylinder 8th can also be of a different type, in principle it can be realized by any other type of fluid cylinder. For the sake of simplicity, in the exemplary embodiment in the following description, always of "hydraulic" steering cylinder 8th are written without the intention of creating a restriction in this regard.

The steering cylinder 8th operated via a tie rod 10 the steerable part of the pendulum tandem axle 9 depending on the steering information of the towing vehicle 1 , This steering information is provided by a traction and pushing device 11 from the towing vehicle 1 transferred to a control valve S for controlling the hydraulic fluid, which the steering cylinder 8th applied. This initiates according to its supply of fluid via the tie rod 10 the corresponding turn of the steerable part of the pendulum tandem axle 9 ,

The steering information is derived from the real steering movement between the towing vehicle 1 and the trailer 2 takes place. A measure of the steering information is then an angle W, which is between the longitudinal axis LZ of the towing vehicle 1 and the longitudinal axis LA of the trailer 2 established. This direct tap of the steering information from the angle constellation between the towing vehicle 1 and the trailer 2 has special advantages because steering movements of the steering axle of the towing vehicle 1 only go into steering movements of the steerable part of the pendulum tandem axle 9 of the trailer 2 when there is actually a change in the direction of the vehicle combination 1 and 2 takes place. Steering deflections when the towing vehicle is stationary 1 do not result in steering movements of the steerable part of the pendulum tandem axle 9 of the trailer 2 low. This protects the steering mechanism of the steerable part of the pendulum tandem axle 9 of the trailer 2 and its tires. Further details on the pendulum tandem axle 9 are the following description of the 2 and 3 refer to.

In 2 becomes a steerable pendulum tandem axle for a better understanding of the problem at hand 9 described conventional design that the relevant prior art according to the DE 297 00 091 U1 shown.

In 2 is a steerable pendulum tandem axle 9 shown schematically when cornering. In the direction of travel marked by an arrow R there are two pendulum bars 12 and 13 provided, each of which forms an axle beam and which are independent of one another in a central axle tube 14 are rotatably supported about an axis A. The as pendulum bars 12 and 13 trained axles take front and rear axle halves 15aV . 15bV and 15Ah . 15bH with unspecified wheels, so that the left side independently of the right side around the axis A of the center axle tube 14 can commute.

To reduce tire wear when cornering, the two rear axle halves are 15Ah and 15bH on handlebars 16 and 17 attached by in steering bearings 18 and 19 located steering pin 20 and 21 rotatably mounted and parts of the two pendulum bars 12 and 13 are. A tie rod 10 connects the free ends of the articulated to the pendulum bars 12 and 13 attached handlebars 16 and 17 ,

A hydraulic steering cylinder 8th is on one of the handlebars 16 or 17 articulated attached. The second attachment point is as a ball joint 22 trained, which is near the center axis tube 14 the pendulum tandem axle 9 located. The steering cylinder forms 8th a spatial-diagonal connection between one of the handlebars 16 and 17 and the center axle tube 14 , When driving straight ahead, the so-called steering geometry in this exemplary embodiment - which is typical for agricultural trailers - is formed by a rectangle, the parallel sides of which are formed by the handlebars 16 and 17 and secondly through the tie rod 10 and an imaginary axis are formed, the imaginary axis being formed by the steering bearings 18 and 19 and runs normal to the vehicle longitudinal axis LA. When cornering, this steering geometry changes to a parallelogram, which is pivoted depending on the steering angle. In the 2 the cornering for right-hand bends is shown with solid lines and for left-hand bends with dashed lines.

At the in 3 The steerable axle shown according to the invention is similar to the basic construction, but the steering geometry is fundamentally different from that previously customary in agricultural trailers.

To improve driving behavior and further reduce tire wear compared to the prior art, which is based on 2 was described, a kind of "upside down" steering trapezoidal application, whose parallel sides when driving straight through the tie rod 10 and an imaginary axis are formed, which by steering bearings 22 and 23 and runs normal to the longitudinal axis of the trailer LA. Here is the tie rod 10 shorter than the distance between the steering bearings 22 and 23 from each other. In addition, it is vital that the tie rod 10 between that through the steering bearings 22 and 23 extending imaginary axis and the central axis tube 14 the pendulum tandem axle 9 is arranged. The tie rod 10 grips on steering levers 24 and 25 which in the steering bearings 22 and 23 are stored and in handlebars 26 and 27 continue, which in turn form axles and on which the unspecified wheels of the pendulum tandem axle 9 are arranged. For storing the steering lever 24 and 25 in the steering bearings 22 and 23 serve as steering bolts 28 and 29 ,

A steering trapezoid is accordingly formed by the aforementioned steering elements, the shorter of which the mutually parallel sides lie in the front in the direction of travel. It is also advantageous if a steering cylinder, if present, is present 8th also in the immediate vicinity of the center axis tube 14 located and attached there. The second attachment point for the steering cylinder 8th is located on one of the steering levers 24 or 25 ,

Due to the close proximity of the tie rod 10 to the center axis tube 14 improves the steering behavior of the steerable pendulum tandem axle 9 crucial due to the changed steering geometry. The overall length of the steerable pendulum tandem axle is also shortened 9 clearly, which increases their off-road suitability enormously, since the area in the rear of the trailer 2 free of steering components such as tie rod 10 and steering cylinder 8th is.

The arrangement of the steering components according to the invention has the consequence that the steering behavior improves significantly because there is a difference in the design of the axis The steering wheel turns (steering angle) in each Direction of cornering. Since these differences in practice from are of great importance, the representation was both for cornering in the left direction (full lines) as well as in the right direction (dashed lines Lines). It should be noted here, however, that the drawing differences in the Steering angle of the wheels are so small that they are actually represented in the drawing, but due to the by the scale reduced size not are recognizable.

The turning (steering angle) of the inside wheel is larger than the turning (steering angle) of the outside wheel. Better driving behavior is the result of the pendulum tandem axle designed according to the invention 9 ,

The driving behavior especially at Gera Drive out can be improved if in the steering bearings 22 . 23 Stabilizing devices are arranged. These stabilization devices are shown schematically in 4 represented and are by simple stabilizing elements per steering bearing 22 and 23 realized. With a pair of pressure elements 30 and 31 which the axles 12 . 13 and the steering levers 24 . 25 are assigned, the deflected tandem axle is automatically reset 9 in the straight ahead position. The pressure elements point to this 30 and 31 sliding surfaces facing each other 32 and 33 on, which are wave-shaped and which interlock positively when driving straight ahead. When cornering, the pressure elements 30 . 31 rotated against each other against a counterforce and the wavy Gleitflä chen 32 . 33 are "lifted out" of their stable form fit. The counterforce in the simplest case is the mass of the trailer 2 , but it can also be adjusted by springs. That by the mass of the trailer 2 on the undulating sliding surfaces 32 . 33 acting forces cause a restoring moment, which is essentially from the mass of the trailer 2 is dependent. This means that the greater the mass of the trailer, the greater the restoring forces 2 and the greater the deflection when cornering. No further stabilization devices are required. In particular, stabilization devices can be omitted, which would require sensors for the deflection of the axis and separate control. The stabilizing elements shown are simple and effective.

Deviating from that based on 1 Described embodiment, the invention can be realized with the same advantages even with trailing axles. With such axles, the flow of hydraulic fluid becomes the steering cylinder when driving forward 8th released so that the steering angle of the steerable part of the pendulum tandem axle 9 due to the friction of the wheels on the road. When reversing and when driving on inclined slopes, the steerable part of the pendulum tandem axle 9 put straight ahead by the steering cylinder 8th is specifically pressurized.

1

towing vehicle

2

pendant

3

cradle

4

drawbar

5

shaft

6

hydraulic line

7

hydraulic line

8th

steering cylinder

9

Pendulum tandem axle

10

tie rod

11

Train- and pushing agents

12

pendulum Holm

13

pendulum Holm

14

Center axle tube

15aV

Front axle a with wheel

15bV

Front axle b with wheel

15Ah

Rear axle half a with wheel

15bH

Rear axle half b with wheel

16

handlebar

17

handlebar

18

steering bearing

19

steering bearing

20

steering bolts

21

steering bolts

22

steering bearing

23

steering bearing

24

steering lever

25

steering lever

26

handlebar

27

handlebar

28

steering bolts

29

steering bolts

30

pressure element

31

pressure element

32

sliding surface

33

sliding surface

A

axis of rotation the pendulum tandem axle

H

Bordhydraulik

LA

longitudinal axis of the trailer

LZ

longitudinal axis of the towing vehicle

R

arrow

S

control valve

Claims (7)

Vehicle trailer, preferably agricultural trailer with at least one pendulum tandem axle ( 9 ), which consists of at least two axle bodies (a) that oscillate about a common axis (A) 12 . 13 ; 26 . 27 ) is formed, of which at least two ( 26 . 27 ) as a steerable part of the pendulum tandem axle ( 9 ) are designed in which the wheels have a steering bearing ( 22 . 23 ), Steering lever ( 24 . 25 ) and handlebars ( 26 . 27 ) on the associated axle beam ( 12 . 13 ) are articulated and via a tie rod ( 10 ) are connected to each other, whereby the steering bearings ( 22 . 23 ) lie on an imaginary axis normal to the vehicle's longitudinal axis (LA) and the distance the steering bearing ( 22 . 23 ) on the imaginary axis, the steering levers ( 24 . 25 ) and the tie rod ( 10 ) form a steering trapezoid in which the shorter parallel side of the trapezoid of the steering rod ( 10 ) which is formed between the imaginary axis by the steering bearings ( 22 . 23 ) and the common axis (A) of the oscillating axle body ( 12 . 13 ; 26 . 27 ) is arranged. Vehicle trailer according to claim 1, characterized in that the tie rod ( 10 ) in the immediate vicinity of a central axis tube ( 14 ) the pendulum tandem axle ( 9 ) is arranged. Vehicle trailer according to claim 1, characterized in that the steerable part of the pendulum tandem axle ( 9 ) via a stabilization device ( 30 . 31 ) for straight running. Vehicle trailer according to claim 3, characterized in that the stabilizing device ( 30 . 31 ) to support the steering lever ( 24 . 25 ) on the axle beam ( 12 . 13 ) in every steering bearing ( 22 . 23 ) at least one pair of pressure elements ( 30 . 31 ) with undulating, interlocking sliding surfaces ( 32 . 33 ) which the steering levers ( 24 . 25 ) against a counterforce on the axle beam ( 12 . 13 ) support. Vehicle trailer according to claim 1, characterized in that the pendulum tandem axle ( 9 ) via a steering cylinder ( 8th ) which has the steerable part of the pendulum tandem axle ( 9 ) controlled depending on the steering movement between towing vehicle and trailer. Vehicle trailer according to claim 1, characterized in that the pendulum tandem axle ( 9 ) via a steering cylinder ( 8th ) which is essentially parallel to the tie rod ( 10 ) and is located in the vicinity. Vehicle trailer according to claim 1, characterized in that the pendulum tandem axle ( 9 ) is designed as a trailing steering axle.