Land vehicles – Wheeled – Running gear
Reexamination Certificate
2000-07-03
2002-08-20
Lerner, Avraham (Department: 3618)
Land vehicles
Wheeled
Running gear
C280S005506
Reexamination Certificate
active
06435531
ABSTRACT:
BACKGROUND AND SUMMARY OF INVENTION
This application claims the priority of German patent document 199 30 444.0-21, filed Jul. 2, 1999, 1999, the disclosure of which is expressly incorporated by reference herein.
The invention relates to a stabilizer arrangement for a motor vehicle, especially a passenger car, for coupling two wheels of a vehicle axle line. Preferred embodiments of the invention relate to stabilizer arrangements with a first stabilizer part, assigned to one wheel and with a second stabilizer part, assigned to the other wheel, as well as with an actuator, which couples the stabilizer parts and makes possible a pretension of the stabilizer parts, the first stabilizer part being connected non-rotationally with a first actuator connection and the second stabilizer part being connected non-rotationally with a second actuator connection. The invention furthermore relates to a method for producing such a stabilizer arrangement.
As a rule, it is the function of a stabilizer to improve the rolling behavior of a vehicle. From the German patent document 11 05 290, a stabilizer arrangement of the above-mentioned type is known, which has a first stabilizer part, which is assigned to one wheel, as well as a second stabilizer part, which is assigned to the other wheel. An actuator or actor, constructed in the form of a rotor-stator aggregate, couples the two stabilizer parts, the first stabilizer part being connected non-rotationally with a first actuator connection, such as the rotor, and the second stabilizer part with a second actuator connection, such as the stator. By a controlled rotation between the rotor and the stator, a pretension of the stabilizer part can selectively be applied, as a result of which the roll stabilization of the vehicle can be achieved. Basically, with such a stabilizer arrangement, the pitch behavior of the vehicle can also be affected. Furthermore, such a stabilizer arrangement can also have the function of a level-adjusting device or of a jack.
In the case of the aforementioned stabilizer arrangement, the non-rotational connection between the actuator and the respective stabilizer part is accomplished in each case over a denticulation. In this connection, an outer denticulation, formed at the respective end of the stabilizers, engages an inner denticulation at the respective actuator connection. In order to construct such an outer denticulation at the stabilizer end, the latter initially must be compressed, in order to achieve a thickening of material. Only then can the denticulation be formed by appropriate metal-removing machining. Such a procedure is relatively costly and unsuitable for use in large-scale production.
The formation of such an axially extending denticulation for the non-rotational coupling of the stabilizer part to the actuator is also shown in the German Patent Document DE 44 43 809 A1 as well as in the German Patent Document DE 44 42 223 C2.
For the German Patent Document DE 43 37 771 A1, the non-rotational coupling of a stabilizer part with the actuator is achieved owing to the fact that, at the end of the stabilizer part that is to be connected with the actuator, a flattened insertion plate is formed, which is introduced into an appropriate accommodating slot in the respective actuator connection, clamping screws being provided, which pass through the insertion plate transversely to the plane of the plate and fasten it to the actuator connection. This embodiment is also relatively expensive for large-scale use.
The German Patent Document DE 43 37 813 A1 discloses the formation of a disk-shaped flange at the respective stabilizer end. This disk-shaped flange can then be connected with a ring-shaped welded seam at the rotor of the actuator. For connecting the stator, a disk-shaped flange, at which a fitting flange constructed at the respective end of the associated stabilizer part is fastened, is attached to the stator by means of a ring-shaped welded seam. The construction of such welded connections is also relatively expensive.
An object of the present invention is to provide embodiments of a stabilizer arrangement of the initially mentioned type, which are suitable for large-scale production.
Pursuant to the invention, this objective is accomplished by a stabilizer arrangement of the above noted general type, wherein at least one of the stabilizer parts is connected indirectly with the associated actuator connection over a coupling element, which is connected non-rotationally with the stabilizer part. The invention also achieves this objection by providing a method of making a stabilizer arrangement of this type, wherein the stabilizer part, which is connected with the associated coupling element by methods such as a friction welding method or the laser welding method, consists of a metal or metal alloy, which is different from that of the coupling element. This objective is also achieved by a method wherein at least one coupling element is produced separately from the associated stabilizer part and subsequently fastened non-rotationally at the associated stabilizer part and, thereupon, the component group, formed from the stabilizer part and the added-on coupling element, is connected with the actuator.
The special advantage of the inventive stabilizer arrangement can be seen therein that differently constructed, shaped or formed stabilizer parts can always be connected with the same coupling elements or the same actuator connections, so that, in this respect, the diversity of parts can be reduced. These measures facilitate, in particular, the logistics of large-scale production.
It is appreciably less expensive to manufacture suitable coupling elements, such as a flange or a profile pin, separately from appropriate blanks and to mount these at the end of the stabilizer part, for example, with the proposed friction welding method, than at the end of the stabilizer part, initially creating, by means of a compression method or the like, the prerequisites for forming a coupling element, integrally molded at the stabilizer part. Overall, manufacturing time and manufacturing costs can be saved by these means. This is particularly advantageous within the scope of large-scale production.
By connecting at least one stabilizer part to the associated actuator connection or to an associated coupling part with the help of self-welded connection, for example, with a friction welded connection or with a laser welded connection, a high-strength connecting technique, which can be used especially within the scope of a large-scale production, is proposed. For example, in the case of the friction welding or the laser welding method, pre-manufactured coupling elements can be connected non-rotationally to the respective stabilizer part without requiring, for example, a compression of the stabilizer part. The friction welded connection can also be formed relatively quickly. The undetachable self-welded, high-strength connection of the coupling element to the stabilizer part results in a one-part component group, which can be connected completely in the conventional manner with the actuator.
Embodiments are also contemplated where the respective stabilizer part can also be mounted directly on the actuator or on one of its connections, for example, by the friction welding method.
Compared to other welding methods, friction welding is distinguished, for example, by the fact that even highly alloyed steels can be joined crack-free without pre- or post-heating. In addition, parts, which have already been finished, can also be joined together by friction welding. Moreover, it is possible to connect different metals or metal alloys undetachably to one another by self-welding with a friction welding method. For example, a high-grade expensive spring steel can consequently be used for producing stabilizer parts, while the coupling part, integrally molded to it in one piece, consists of a less expensive steel.
In the scope of its production, the respective coupling element can be pre-manufactured to such an extent already, that further machining step
Acker Bernd
Busch Werner
Reinhardt Rudlf
Szell Thomas
Crowell & Moring LLP
Daimler-Chrysler AG
Lerner Avraham
LandOfFree
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