The disclosure relates to a torque transmission device, in particular for the drive train of a motor vehicle, comprising an input element and an output element, which are rotatable relative to one another via an energy storage device and about a joint axis of rotation, and wherein a torque-limiting device is arranged between input element and output element, wherein the torque-limiting device is formed to transmit a torque between input element and output element below a torque value and, above the torque value, to transmit at least partially, in particular completely no torque.
The disclosure furthermore relates to a method for producing a torque transmission device, in particular for the drive train of a motor vehicle, comprising:
A torque transmission device is known from, for example, DE 10 2012 211 990 A1. The torque transmission device, in particular for a drive train of an internal combustion engine-driven motor vehicle, has in this case an input part and an output part with a joint axis of rotation about which the input part and the output part are jointly rotatable and are rotatable in a restricted manner relative to one another, at least one energy store which is active between the input part and the output part, which energy store is supported on one hand on the input part and on the other hand on the output part, and a torque-limiting device arranged kinematically between the at least one energy store and the input part or the output part, in the case of which the torque-limiting device has a supporting portion, on which the at least one energy store is supported and which bears against the input part or the output part in a positive-locking and frictional manner, and a spring portion, which brings about pretensioned bearing of the supporting portion against the input part or against the output part and in the case of a supporting force of the at least one energy store that exceeds a predefined value on the supporting portion with deflection enables a release of the supporting portion from the input part or from the output part.
The complex construction and the expensive production of the torque transmission device as well as the imprecise function of the torque-limiting device are, however, disadvantageous in this case.
One aspect of the present invention is a torque transmission device that enables a limiting of torque peaks, is simultaneously easy to construct, can be produced at low cost, and functions in a reliable and precise manner
A further aspect of the present invention is to indicate an alternative torque transmission device and an alternative method for producing a torque transmission device.
One aspect of the present invention achieves the above-mentioned is a torque transmission device for the drive train of a motor vehicle, comprising an input element and a cover element, which is connected in a rotationally conjoint manner to the input element, as well as an output element, wherein the output element and the input element are rotatable relative to one another via an energy storage device and about a joint axis of rotation A and wherein a torque-limiting device is arranged between input element and output element, wherein the torque-limiting device is formed to transmit a torque between input element and output element up to a torque threshold value and, in the event of the torque threshold value being exceeded, to transmit at least partially torque or completely no torque, wherein the torque-limiting device is connected to the energy storage device via a frictional and/or positive-locking connection, and is connected to the input element via a first frictionally engaged connection and is connected to the cover element via a second frictionally engaged connection, wherein the torque-limiting device comprises an axially pretensioned element for providing the frictionally engaged connections, wherein the pretensioning element is pretensioned between the input element and the cover element, wherein the pretensioning element provides on a radially inner region at least two contact elements, wherein the contact elements are provided on a radius and project axially in the direction of the input element from the pretensioned element, wherein the contact elements are provided with an angular distance to one another and wherein the contact elements form the first frictionally engaged connection with the input element.
One aspect of the present invention is a method for producing a torque transmission device for the drive train of a motor vehicle, comprising
One of the advantages achieved thereby is that simple and low-cost production and construction are enabled. An alternative torque transmission device and a method for producing a torque transmission device are furthermore indicated.
Further features, advantages and further aspects of the invention are described below and or inherent as a result of this.
It can furthermore be provided that the contact elements are formed from the pretensioned element and/or are provided as additional elements to the pretensioning element. The pretensioning element can preferably be produced from a resilient material such as spring steel sheet. The pretensioning element is embodied to be L-shaped as seen in cross-section. This form can preferably be performed by a reshaping process. In the case of this reshaping process, it can equally also be provided that the contact elements are also formed from the spring steel sheet. The contact elements can, however, also be subsequently attached to the pretensioning element as an additional part.
The axial pretensioning element can also provide a radial centering surface radially on the inside and wherein the input element provides at least three corresponding radial bearing elements distributed evenly over the circumference. Three bearing elements distributed evenly over the circumference are particularly well suited to radial centering. Since the torque transmission device provides a viscous medium for lubrication, the viscous medium can reach particularly effectively between the radial centering surface of the pretensioned element and the bearing elements since the centering surface is not continuous but is interrupted by the individually provided bearing elements on the circumference and thus the viscous medium can always reach the radial centering surface again.
In this case, the radial bearing elements can be formed from the input element and/or be attached to the input element as additional elements.
It will be obvious that the above-mentioned features and the features which are still to be explained below can not only be used in the respectively indicated combination, but also in other combinations or on their own without departing from the scope of the present invention.
Preferred designs and embodiments of the present invention are represented in the drawings and are explained in greater detail in the following description, wherein identical reference numbers refer to identical or similar or functionally identical components or elements.
The pretensioning element 5 is in this case axially pretensioned by a cover element 16 which form on the output side next to the primary flywheel 2 a torus-shaped intermediate space 11 for the energy storage device 4 arranged in the circumferential direction. The pretensioning element 5 furthermore provides a frictional and/or positive-locking connection 8 in order to actuate the energy store 4.
The method comprises:
In a first step S1, an input element is provided.
In a further step S2, an output element is provided.
In a further step S3, an energy storage device is provided.
In a further step S4, a torque-limiting device is provided, wherein the torque-limiting device is formed to transmit a torque up to a torque threshold value and, in the event if the torque threshold value being exceeded, to at least partially or completely transmit no torque.
In a further step S5, the cover element is provided.
In a further step S6, input element and output element are arranged rotatably relative to one another via the energy storage device and about a joint axis of rotation.
In a further step S7, the torque-limiting device is arranged between input element and output element.
In steps S1-S7, the torque-limiting device is connected to the energy storage device via a frictional and/or positive-locking connection and is connected to the input element via a frictionally engaged connection.
In summary, at least one of the aspects of the invention has at least one of the following advantages:
Although the present invention has been described on the basis of preferred exemplary embodiments, it is not restricted thereto, but rather can be modified in various ways.
Thus, while there have shown and described and pointed out fundamental novel features of the invention as applied to a preferred embodiment thereof, it will be understood that various omissions and substitutions and changes in the form and details of the devices illustrated, and in their operation, may be made by those skilled in the art without departing from the spirit of the invention. For example, it is expressly intended that all combinations of those elements and/or method steps which perform substantially the same function in substantially the same way to achieve the same results are within the scope of the invention. Moreover, it should be recognized that structures and/or elements and/or method steps shown and/or described in connection with any disclosed form or embodiment of the invention may be incorporated in any other disclosed or described or suggested form or embodiment as a general matter of design choice. It is the intention, therefore, to be limited only as indicated by the scope of the claims appended hereto.
Number | Date | Country | Kind |
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10 2020 206 189.0 | May 2020 | DE | national |
This is a U.S. national stage of Application No. PCT/EP2021/062600 filed May 12, 2021. Priority is claimed on German Application No. DE 10 2020 206 189.0 filed May 18, 2020 the content of which is incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2021/062600 | 5/12/2021 | WO |