DE3902810A1 - Multi-axle steering system - Google Patents

Abstract

A multi-axle steering system for vehicles is provided with a mechanical/hydraulic steering gear with a drive cylinder (40) for amplifying steering power for one axle (40), and a hydrostatic steering connection, provided with a blocking device (2), for a second axle (41) which can be actuated via a steering linkage (43) with a second drive cylinder (42, 27). The blocking device has a cylinder (1) which is arranged in the steering linkage of the second axle (41) and in which a securing element (7) which is connected to the steering linkage and adjustable therewith can be mechanically locked by means of an engageable and disengageable blocking component (8). A centring device (3) with two centring pistons (19, 20) which are arranged in a displaceable fashion on a longitudinally displaceable part (4) of the steering linkage (41) is arranged in the steering linkage (43) of the second axle (41). The longitudinally displaceable part (4) has a stop (23, 34) for each of the two centring pistons. A fixed part (24, 25, 35) of the centring device has a second stop, which defines the central position of the steering linkage (41), for each of the centring pistons (19, 20). The piston spaces (17, 18) of the two centring pistons (19, 20) can be pressurised by a pressure medium source (44) which can be activated at least in the area of a straight-ahead position by a switching element (43). <IMAGE>

Description

The invention relates to a multi-axle steering system with a mechanical-hydraulic steering gear with a working cylinder the one for steering power amplification for an axle and a hydro static steering lock provided with a blocking device binding for a second axle with a steering linkage a second cylinder can be operated, the Blocking device in the steering linkage of the second axis arranged cylinder, in which one with the Lenkge rods connected and thus adjustable holding member an engaging and disengaging blocking part mechanically locked is cash.

Such steering is e.g. in DE-OS 36 15 740 be wrote. The second, joint, is in the middle position th axle, generally the rear axle, is a mechanical one Blocking reached.

The disadvantage here, however, is that by valve collars or other leaks during operation a hydrostati shear offset can occur, causing the kinematics between the different steered axles is no longer correct. Around To establish synchronicity again had to be done in one manual operation of the selector switch to switch on the two ten or more axes can be switched off. At the next The overrunning of the connected axis was then carried out in the straight-ahead position centered and blocked. On finally the axle could be switched on again for steering will.

The present invention is therefore based on the object to create a multi-axle steering system of the type mentioned fen, in which synchronization of the ge steered axes to each other is made possible.

According to the invention, this object is characterized by the solved part of claim 1 mentioned features.

Through the centering device according to the invention, in particular by the pressurization of the piston chambers is continuous Always a new synchronization during operation or a synchronization pulse. Every time when driving over the straight position of one axis, in general the front axle, pressure will be in the two pistons given spaces, whereby the correspondingly shifted centering piston is pushed back to its outer stop where because of the internal stop at the same time takes the displaceable part of the steering linkage with it exactly in the middle position. This way Lekagen can do not cause any hydrostatic misalignment of any kind; much more is always an exact synchronization between the joints th axes available.

Another advantage is the Zen according to the invention Triereinrichtung achieved that a feedback in every position axis in the straight-ahead position is possible.

The connection with the Blok is also an advantage Kiereinrichtung, which is generally designed so that they can be run over in an emergency so it is special for off-road vehicles, no breakage in mechanical parts  len can come, and that the centering device as a counter pressure with this forced deflection acts. To this A buffer is created in this way. It is also safe posed that when the overload disappeared again is, by appropriate pressure introduction into the pistons clear an automatic reset in the straight ahead position tion takes place.

In EP-OS 1 50 520 there is already a manual activation valve shown with a centering device, the Centering is made via a spring. The disadvantage is however, that only a certain spring identification Is available and that there is always a back pressure. In addition, the characteristics of the facility are limited.

An advantageous development of the invention consists in that a pressure accumulator is provided as the pressure medium source.

In this way it is always the one for centering and back pressure required. This means that even if the hydraulic steering system fails, the Storage pressure is reset and centered can. For safety reasons, the system can be so ge be switched that e.g. at a pressure drop and at one Reaching a certain minimum pressure in the print memory cher a return of the axis to a straight position he follows.

Basically, of course, as a source of pressure medium a pump is also possible.  

It is advantageous if the two piston spaces are deflected ter steering position are connected to an additional memory.

The pressure in the pressure accumulator becomes relatively low to get voted. With the additional storage only one should low bias can be achieved in that the displaced centering piston due to the preload pressure in the piston chamber always at the inner stop of the movable Part is present. In this way, no long ways are required derlich, if a correspondingly via the pressure medium source high pressure to reset the steering linkage in the new tralposition is introduced.

Another very advantageous embodiment of the invention consists in the fact that in a pressure relief line the Zen Triereinrichtung a throttle is used.

The throttle is practical in the two piston chambers creates a dynamic pressure. This back pressure leads to a ge dampened provision. In the deflected state, the Pressure from the piston chamber, which is reduced, only throttled rarely escape.

In a simple manner, the longitudinally movable part is as Piston rod formed, the two on one area Centering piston and the holding member on another area wearing.

A simple and very compact embodiment of the invention results when the stop arranged on the piston rod limb forms the inner stop. In this way, one significantly shorter overall length achieved because the retaining member bil  det the stop between the two centering pistons. Here is only to ensure that a pressure relief line device is provided in a hydraulic device leads to the tank.

An easy way to do this is that the Pressure relief line leads through the blocking part.

If the blocking part is the blocking piston, the is hydraulically operated, can be in the piston Throttle must be installed, which results in a reset the steering linkage a dynamic pressure under the locking piston forms. In this way it is automatically ensured that the blocking piston is not pushed into its blocking position is before the sliding part of the steering linkage in the Center position has returned.

In an embodiment according to the invention, it is provided see that the blocking part verse with a blocking piston hen is that by a spring device in a blocking position is biased, with the Kol Space of the blocking piston via a connection with pressure is medium supply.

This configuration represents a reversal of the Blocked funds provided compared to the facility according to DE-OS 36 15 740.

However, since the existing in this embodiment Pressure, this is also available to the blocking device stands, this form of unblocking is both easier as well as safer.  

Several can be arranged one above the other as a spring device ordered leaf springs may be provided.

Another very advantageous and not obvious next Education of the invention is that the cylinder housing for the blocking device and the centering device of the Art is extended that the piston rod with one on it arranged pistons and its own piston chamber as working cylinder is formed for the second axis.

If the pressure in the working piston for the working cylinder is selected higher than the pressure for the centering device tion, the working cylinder can normally be used to deflect be used. However, if there is a disturbance from outside necessary that the rear axle zen in the straight ahead position is trated. The pressure in the working cylinder thus falls accordingly, is by the pressure accumulator for the Zen Triereinrichtung a steering reset with simultaneous eng blocking and centering achieved.

Basically, this emergency function is also with a solution possible, the working cylinder usually as a sepa Council part is provided, but in this case the ge full force for resetting via the centering device tion and over the entire steering linkage on this work cylinders are transmitted, which is why a corresponding de Dimensioning of the interacting parts necessary dig is.  

The area in which the centering takes place, i.e. the Area in which the centering piston chambers are pressurized can be struck depending on the steering angle of the Front axle can be selected. For example, one Head angle of 5 degrees or greater in both directions see what he does an improved straight-ahead driving behavior is enough.

Exemplary embodiments of the invention are described below described in principle of the drawing.

It shows:

Fig. 1 shows a longitudinal section through a blocking / centering unit in the straight-ahead position;

FIG. 2 shows a longitudinal section through the exemplary embodiment according to FIG. 1 in the deflected state;

Fig. 3 is a longitudinal section through a locking-centering and cylinder unit;

Fig. 4 is a hydraulic circuit diagram for the fiction, modern multi-axle steering according to FIGS. 1 and 2;

Fig. 5 is a hydraulic circuit diagram for the multi-axle steering system according to the Invention game according to the game of FIG. 3 with an integrated working cylinder.

The blocking / centering unit according to the invention has a common cylinder housing 1 with a blocking unit 2 and a centering unit 3 .

In the cylinder housing 1 is a piston rod 4 as a longitudinally displaceable part of a steering linkage with a connec tion part 5 for connection to the other steering linkage parts of a known type. In the same way, the cylinder housing 1 has a connecting part 6 on the opposite side. At the end facing away from the connecting part 5 , a holding member 7 is fastened with a profiling on the circumference. In the profiling of the holding member 7 engages a Blockierkol ben 8 with its front end in the blocking position. The blocking piston 8 is mounted and guided in an attachment 9 of the cylinder housing 1 . A piston chamber 12 with a pressure connection 13 is located between the actual piston part 10 and a collar 11 on the front of the attachment 9 . Behind the piston part 10 there is a pressure equalization chamber 14 which is connected to a tank T via a connection 15 . A spring 16 prestresses the blocking piston 8 in the blocking position.

The more detailed structure and operation of the blocking unit 2 is also described in more detail in DE-OS 36 15 740 ben. The centering unit 3 has two centering piston chambers 17 and 18 and two centering pistons 19 and 20 . The centering piston 19 and 20 are slidably arranged on the piston rod 4 . Both centering piston chambers 17 and 18 have pressure connections 21 and 22 . Between the two Zentrierkol ben 19 and 20 forms a collar 23 with a larger diameter as the piston rod in the rest of the area to an impact for the two centering pistons 19 and 20th

In the same plane, a stroke is arranged in a cylinder housing, which is formed by two annular webs 24 and 25 which protrude inwards. Between the two annular webs 24 and 25 there is an outlet 26 which is connected to the tank T.

As can be seen from FIG. 1, are in the centering position, ie in a straight-ahead position, the two Zen trier pistons 19 and 20 with their sides facing each other both on the collar 23 and on the annular webs 24 and 25 .

FIG. 2 shows a position of the exemplary embodiment according to FIG. 1 in the deflected state. If the working cylinder for the actuation of the steering linkage is supplied with pressure medium and at the same time circuit 13 is given pressure in the piston chamber 12 , the blocking piston 8 is released against the bias by the spring 16 from the connection with the holding member 7 , that is, drive it . In this way, the piston rod 4 , which is connected to the steering linkage or constitutes part thereof, can be correspondingly displaced (to the left in FIG. 2). Through the collar 23 of the centering piston 19 is thus also shifted to the left, while the centering piston 20 is due to its displaceability on the piston rod 4 in its position on the annular web 25 further. In this way, steering can be carried out in a conventional manner. However, it now follows a return movement on the steering linkage, so the piston rod 4 can move freely again to the right. If the straight-ahead position is exceeded or one reaches an area of an approximate straight line, which can be, for example, 5 degrees in both directions is given via a pressure link 21 pressure in the piston chambers 17 and 18 given a switching member discussed in more detail below. As a result, the centering piston 19 is shifted to the right until it comes to rest on the collar 23 . Due to the pressure in the centering piston chamber 17 and the annular web 24 , centering is carried out at the zero crossing of the front axle, ie exactly in the straight line configuration, provided the piston rod 4 itself would not return exactly to this position due to Leka conditions. With a further movement to the right, the centering piston 19 remains in contact with the annular web, while in this case the centering piston 20 is carried along by the collar 23 to the right. When the direction of movement is reversed again, the same processes occur analogously. This means that centering takes place at every zero crossing of the front axle. The same applies to a termination of the steering movement or a shutdown of the axle, in which case the blocking piston 8 ensures mechanical blocking at a pressure outlet from the piston chamber 12 .

In FIG. 3, an embodiment is shown, wherein the blocking unit is integrated into the centering unit 3 2. In addition, the cylinder housing 1 is extended so far that a working cylinder 27 , which carries out the hydraulic actuation of the steering linkage, is integrated into the overall unit. A sealing block 28 ensures a corresponding sealing and mounting of the piston rod 4 and two pressure medium connections 29 , 30 are connected in the usual way to a pressure medium source in order to supply either the working cylinder chamber 31 or 32 with pressure medium for appropriate adjustment of the piston rod 4 . In the exemplary embodiment according to FIG. 3, the same parts are provided with the same reference symbols as in FIGS. 1 and 2.

A working piston 33 separates the two piston chambers 31 and 32 from one another in the usual way. As can be seen, in this case the holding member 7 also forms the inner stop for the two centering pistons 19 and 20 . This means that the collar 23 is omitted in this case. The holding member 7 can be fixed on the piston rod 4 or it is between on both sides in grooves arranged locking rings 34 , which thus form the actual stops for the centering piston 19 and 20 .

Instead of two annular webs 24 and 25 , the outer stop, which also defines the central position at the same time, forms a bush 35 with a length that corresponds to the distance between the two retaining rings 34 on the outside.

A vent hole in the blocking piston 8 ensures pressure discharge. In the vent hole 36 a Dros sel 37 is arranged. The vent hole 36 is in turn connected to the tank T via the pressure compensation chamber 14 and the connection 15 .

In the two pressure connections 21 and 22 a throttle 38 is also arranged each time, which is formed by a corresponding de cross-sectional change of the outlet.

In principle, the exemplary embodiment according to FIG. 3 functions in the same way as that described in FIGS. 1 and 2. Instead of a spiral spring 16 , however, a plurality of leaf springs 39 arranged one above the other are provided for pretensioning the blocking device. To release the blockage, pressure is again passed into the piston chamber 12 via the pressure connection 13 , whereby the blocking piston 8 lifts off and the piston rod 4 is shifted according to the introduction of pressure into the piston chamber 31 or 32 . In this case - as described above - one of the two centering pistons 19 and 20 is carried along by one of the two retaining rings 34 during the displacement of the piston rod 4 , while the other remains in its position. At a Druckeinlei device in the centering piston chambers 17 and 18 , the shifted centering piston 19 is pushed back into its basic position and also takes the piston rod 4 with it, which is centered during passage through the center position through the bush 35 .

In Figs. 4 and 5, two hydraulic diagrams for the entire multi-axle with hydrostatic betae are actuating device for vehicles with an additional joint-ter rear axle shown, wherein Fig. 4 of the embodiment according to FIGS. 1 and 2 and Figs. 5 refers to the embodiment of FIG. 3.

Since the multi-axle steering system is basically of a known type is, only the essentials for the invention are below Chen parts described in more detail.

A front axle 40 is mechanically steered in the usual mechanical-hy metallic, while a rear axle 41 purely hydrostatic table via a working cylinder 42 , which is connected to a steering rod 43 , is steered. In the circuit diagram, the cylinder housing 1 with the blocking unit 2 and the centering unit 3 is also shown schematically. The pressure supply to the blocking unit 2 and the centering unit 3 takes place via a pressure accumulator 44 and an intermediate hydraulic valve 45 . The working cylinder 42 is connected to the working cylinder 48 of the front axle steering via pressure lines 46 and 47 . The additional memory 49 , which delivers a much lower pressure as the Druckspei cher 44 , for example, only about 5-10 bar, ensures even in the deflected state, ie with a displaced piston rod 4 for a low pressure in the two centering piston chambers 17 and 18 , whereby Even when one of the two centering pistons 19 or 20 is displaced, it always bears against the collar 23 or one of the two locking rings 34 , as a result of which longer distances and thus longer times when resetting are avoided.

To connect the steering of the rear axle 41 , various conditions must be met in a known manner, such as a speed of less than 50 km / h, straight ahead position of the front axle 40 and the like. In principle, the connection is made via a selector contact switch 50 , 51 being the switching contact for the Represents speed. 52 represents the accumulator pressure contact switch for a sufficient pressure. 53 represents the switch for a straight-ahead driving position, the position being tapped from the front axle steering with the contact 54 . The contact 54 responds within a deflection angle of, for example, 5 degrees. The switch 55 is assigned to the switch contact 53 for the front axle position, while the switch 56 is assigned to the relay K 1 . A control lamp 57 indicates when the rear axle steering is switched on. Electrical actuation of the hydraulic valve 45 takes place via the switch 58 . The main memory 44 is loaded in the usual way by a pump 60 driven by an electric motor 59 .

The activation / deactivation of the rear axle 41 for steering is influenced by the following factors:

If a steering angle of, for example, 5 degrees in one of the two directions is undershot, the contact 54 , thus switch 53 and via relay K 2, the switches 55 and 58 are actuated. If the speed is below 50 km / h, for example, switch 51 is closed. With sufficient pressure in the memory 44 , the switch 52 is also closed. Relay K 1 picks up and closes contact 56 . The indicator lamp 57 lights up, which means that the rear axle steering is actuated. When a steering angle of more than 5 degrees is exceeded, the contact 54 is interrupted. Via switch 53 , the relay K 2 drops, switch 58 is closed and valve 45 is actuated. At the same time, this is the working position of the hy-metallic connection between the master cylinder 48 of the front axle and the hydraulic slave cylinder of the rear axle 41 , the slave cylinder being the working cylinder 42 .

With several steered rear axles, the master cylinder, that is, the working cylinder 48 of the front axle can also be used instead of directly for actuating the slave cylinder of the rear axle 41 only for actuating a valve, in which case a separate hydraulic unit, for example a separate pump, for the rear axle steering , is provided.

In the working position, ie in the deflected position of the rear axle 41 , the pressure connections 21 and 22 of the centering piston chambers 17 and 18 are switched to the accumulator 49 . At the same time, pressure is introduced into the piston chamber 12 via the pressure connection 13 , with the result that the blocking piston 8 is raised and thus releases the holding member 7 . The piston rod 4 can then be adjusted. The Arbeitszylin the 42 or in the embodiment of FIG. 3, the working cylinder 27 integrated in the unit function in the usual way and represent the hydraulic amplification of the steering.

If the front axle steering angle is below 5 degrees, the switch 58 opens and the valve 45 drops. The centering piston chambers 17 and 18 thus receive pressure again, namely the same pressure on both sides. Hydraulic centering of the rear axle 41 takes place in this way, this centering taking place with each pass through the zero position.

The hydraulic circuit diagram of FIG. 5 is grundsätz Lich of the same configuration as that of FIG. 4. The one only difference lies only in that no separate working cylinder is provided in this case 48, but this in the blocking / centering unit is integrated, specifically in accordance with the exemplary embodiment according to FIG. 3. For this reason, the corresponding reference numerals from FIG. 4 have also been adopted in FIG. 5.

Reference number:

1 cylinder housing
2 blocking unit
3 centering unit
4 piston rod
5 connecting part
6 connecting part
7 holding link
8 locking pistons
9 essay
10 piston part
11 fret
12 piston chamber
13 pressure connection
14 pressure equalization chamber
15 connection
16 spring
17 centering piston chambers
18 centering piston chambers
19 centering pistons
20 centering pistons
21 pressure connection
22 pressure connection
23 fret
24 ring-shaped bars
25 ring-shaped bars
26 outlet
27 working cylinders
28 sealing block
29 Pressure fluid connection
30 pressure medium connection
31 piston chamber
32 piston chamber
33 working pistons
34 circlip
35 socket
36 vent hole
37 throttle
38 throttle
39 leaf springs
40 front axle
41 rear axle
42 working cylinders
43 steering linkage
44 accumulator
45 hydraulic valve
46 pressure lines
47 pressure lines
48 working cylinders
49 additional memory
50 selector switches
51 switching contact
52 Storage pressure contact switch
53 switches
54 contact
55 switches
56 switches
57 indicator light
58 switches
59 electric motor
60 pump

Claims (10)

1.Multi-axle steering system for vehicles with a mechanically hydraulic steering gear with a working cylinder for steering power amplification for one axle and a hydrostatic rule with a blocking device provided steering connection for a second axle which can be actuated via a steering linkage with a second working cylinder, the blocking device being an im Steering linkage of the second axis arranged cylinder, in which a rod connected to the Lenkge and thus adjustable holding member is mechanically locking bar by an engaging and disengaging blocking part, characterized in that in the steering linkage ( 43 ) of the second axis ( 41 ) a Zen Triereinrichtung ( 3 ) and with two on a longitudinally displaceable part ( 4 ) of the steering linkage ( 41 ) displaceably arranged centering piston ( 19 , 20 ) is arranged, wherein the longitudinally displaceable part ( 4 ) has a stop ( 23 , 34 ) for each of the two centering pistons and a fixed part ( 24 , 25 , 35 ) of the centering device has a second stop defining the center position of the steering linkage ( 41 ) for each of the centering pistons ( 19 , 20 ), and that the piston chambers ( 17 , 18 ) of the two centering pistons ( 19 , 20 ) have one Pressure medium source ( 44 ), which can be activated at least in the area of a straight position by a switching element ( 43 ), can be pressurized. 2. Multi-axis steering system according to claim 1, characterized in that the pressure medium source is a pressure accumulator ( 44 ). 3. Multi-axis steering system according to claim 1 or 2, characterized in that the two piston chambers ( 17 , 18 ) are connected to an additional memory ( 49 ) in the deflected steering position. 4. Multi-axis steering system according to one of claims 1-3, characterized in that in a pressure relief line ( 36 ) of the centering device ( 3 ) a throttle ( 37 ) is used. 5. Multi-axis steering system according to one of claims 1-4, characterized in that the longitudinally displaceable part is designed as a piston rod ( 4 ), the two centering pistons ( 19 , 20 ) in one area and the holding member ( 7 ) in another area. wearing. 6. Multi-axle steering system according to claim 5, characterized in that the holding member ( 7 ) arranged on the piston rod ( 4 ) forms the inner stop for the centering piston ( 19 , 20 ). 7. Multi-axle steering system according to claims 4-6, characterized in that the pressure relief line ( 36 ) through the blocking part ( 8 ). 8. Multi-axle steering system according to claim 5, 6 or 7, characterized in that the blocking part is provided with a blocking piston ( 8 ) which is biased by a spring device ( 16 , 39 ) in a blocking position, wherein to unblock the piston space ( 12 ) of the blocking piston ( 8 ) can be supplied with pressure medium via a connection ( 13 ). 9. Multi-axle steering system according to claim 8, characterized in that the spring device consists of a package of leaf springs arranged one behind the other ( 39 ). 10. Multi-axle steering system according to one of claims 1-9, characterized in that the cylinder housing ( 1 ) for the blocking device ( 2 ) and the centering device ( 3 ) is expanded such that the piston rod ( 4 ) with a piston ( 33 ) arranged thereon and, own piston chambers ( 31 , 32 ) as a working cylinder ( 27 ) for the second axis ( 41 ).