The present disclosure relates to a hydraulic camshaft adjuster having an at least two-piece rotor non-rotatably connected to a camshaft. The at least two-piece rotor can rotate about an axis, and is composed of a first rotor element and a second rotor element.
The present disclosure also relates to a use of an at least two-piece rotor in a hydraulic camshaft adjuster.
The present disclosure furthermore relates to a method for installing an at least two-piece rotor of a hydraulic camshaft adjuster.
It is generally known that camshaft adjusters enable optimal valve control times over a broad load and rotational rate range for a motor. In this manner, significant reductions in emissions and fuel consumption have been achieved. Furthermore, by optimizing the torque and the performance, the driving enjoyment is increased significantly. A distinction is made in the prior art between electric camshaft adjusters and the hydraulic camshaft adjusters specified in the introduction.
Rotors are known from the field of hydraulic camshaft adjusters, which are composed of a first rotor element and a second rotor element. This is disclosed, for example, in the German patent application DE 10 2009 053 600 A1. Two rotor elements are connected with pins or sintered therein. A connection of this type, in which two rotor elements 4, 6 are connected to one another with pins 5 and additionally by means of an oil distribution and centering sleeve 7, is depicted by way of example in
Another embodiment for joining two rotor elements of a rotor is described in the German patent application DE 10 2009 031 934 A1. Two rotor elements made of plastic are mounted on a steel support therein. Two rotor elements that are joined, and subsequently glued to one another as well, is disclosed in the international patent application WO 2010/128976 A1. Two rotor elements are designed in the German patent application DE 10 2008 028 640 A1 such that they can be joined due to their respective “distinct” geometries. Two rotor elements that seal oil channels through sinter facets, and are thus connected to one another, is disclosed in the German patent application DE 10 2011 117 856 A1. The European patent application EP 2 300 693 B1 furthermore describes two identical rotor elements, joined by means of a form fit and press fit to form the oil channels. The rotor designed in the form of a composite system, wherein the rotor core plus the cover form the oil channels, is disclosed in the European patent application EP 1 731 722 B1. The German patent application DE 10 2010 063 700 A1 describes a similar design. In this case, the oil channels are formed by grooves on the rotor in the shape of a pan. In order to enable an unobstructed pressurizing medium flow of the oil in the camshaft adjuster, an annular space is formed between a valve housing and the surrounding construction in the European patent application EP 1 924 759 A1.
In all of the documents specified above, there are additional tensions and deformations in the connection of the assembled rotor. These tensions and deformations result, disadvantageously, in a general compromise to the functioning of the rotor, and furthermore, the rotor becomes less robust during operation.
One objective of the present disclosure is therefore to further develop an economical hydraulic camshaft adjuster have an at least two-piece rotor, such that these tensions and deformations are reduced in the camshaft adjuster, and as a result, to reduce losses in terms of stability in the at least two-piece rotor.
This objective is achieved by a hydraulic camshaft adjuster having an at least two-piece rotor, comprising the features described herein.
Another objective of the present disclosure is to define a use of an at least two-piece rotor in a hydraulic camshaft adjuster, such that tensions and deformations in the camshaft adjuster are reduced during operation, and as a result, the at least two-piece rotor is not subjected to a loss in stability.
This objective is achieved in a use of an at least two-piece rotor in a hydraulic camshaft adjuster comprising the features described herein.
Another objective of the present disclosure is to provide an economic method for the installation of an at least two-piece rotor for a hydraulic camshaft adjuster, such that tensions and deformations in the camshaft adjuster during operation are reduced, and as a result, the at least two-piece rotor is not subjected to a loss in stability.
This objective is achieved by means of a method for installing an at least two-piece rotor for a hydraulic camshaft adjuster comprising the features described herein.
The hydraulic camshaft adjuster according to the disclosure, having an at least two-piece rotor, non-rotatably connected to a camshaft, can rotate about an axis, and is composed of a first rotor element and a second rotor element.
In accordance with this disclosure, the first rotor element and the second rotor element are axially pre-tensioned in a force-fitting manner against the camshaft using only a screw assembly.
According to one embodiment, an axial pre-tensioning force of a central screw, also referred to as a central valve, of the screw assembly is therefore configured for a force-fitting pre-tensioning of the at least two-piece rotor in a respective rotor bore-hole in the first and second rotor elements, such that the axial pre-tension force is greater than a counter-load acting on the assembled at least two-piece rotor. The acting counter-load is understood to mean, thereby, the sum of the installation and/or operating loads, e.g. adjustment torque, shear force, inner oil pressure, stabilizing torque during installation, etc. It should be noted here that the rotor bore-holes in the first and second rotor elements specified in the present application are frequently referred to as annular channels in technical terminology.
A first embodiment provides that the first and second rotor elements are centered in relation to one another and to the camshaft via the central screw by means of the axial pre-tension of the central screw.
In another embodiment of the hydraulic camshaft adjuster according to this disclosure, friction reducing surface elements, surface treatments or laser structurings having different material hardnesses are provided in an interstice between the central screw and the respective rotor bore-hole in the first and second rotor elements of the screw assembly. These formations are provided as friction increasing measures, as is also the case, for example, in an interstice of the at least two-piece rotor and a spring receiver/sensor wheel (trigger wheel), which can be used for additional reduction of the axial pre-tension force and thus for reducing the tensions and strains in the screw assembly and in the at least two-piece rotor.
Another embodiment of the present disclosure provides that the first and second rotor elements are connected to one another by means of an adhesive and/or welded bond. In particular, both rotor elements are material and substance bonded to one another in a welded bond.
In another embodiment of the present disclosure, in order to generate the force fit of the at least two-piece rotor between the central screw and the camshaft, it is further proposed that the screw assembly be configured such that a thread base radius of the central screw is increased in comparison with the prior art, by means of which a stress concentration is reduced in an advantageous manner.
It should also be noted that the first and second rotor elements are incorporated in the screw assembly as a single unit, and are attached to a motor as an assembly, without both rotor elements having to be connected to one another first. For installation purposes, the two rotor elements can then be held together by a transportation securing device during shipping.
The method according to the present disclosure for installing an at least two-piece rotor for a hydraulic camshaft adjuster is characterized by the following step according to the disclosure. A first rotor element and a second rotor element are axially tightened against a camshaft in a force-fitting manner using only a screw assembly. In an embodiment, an axial pre-tensioning force of a central screw of the screw assembly is configured for a force-fitting pre-tensioning of the at least two-piece rotor in a respective rotor bore-hole in the first and second rotor elements, such that the axial pre-tension force is greater than a counter-load acting on the assembled, at least two-piece, rotor.
As a result of the axial pre-tensioning of the central screw, the first and second rotor elements are centered in relation to one another and to the camshaft via the central screw.
In an embodiment of the method according to the present disclosure, the first and the second rotor elements are connected to one another by means of an adhesive and/or welded bond, prior to the pre-tensioning.
As a result of the force-fitting axial pre-tensioning of the first and second rotor elements against the camshaft by means of the central screw of the screw assembly, tensions and deformations of the camshaft adjuster can thus be reduced with the teachings of this disclosure during operation in an advantageous manner, such that, as a result, the at least two-piece rotor is not subjected to stability losses. The problems occurring in the prior art, described in the introduction, are thus eliminated by the present disclosure. Furthermore, a cost reduction in relation to the previously known hydraulic camshaft adjusters, having an at least two-piece rotor, is obtained by means of the present disclosure, because a connection of the first and second rotor elements with pins or suchlike is eliminated.
Exemplary embodiments of the present disclosure, and the advantages thereof, shall be explained in greater detail below with reference to the attached Figures. The proportions in the figures do not always correspond to the actual proportions, because some shapes are simplified, and other shapes are enlarged for the sake of a better illustration, in relation other elements. Therein:
Identical reference symbols are used for identical elements, or elements having the same function. Furthermore, for purposes of clarity, only those reference symbols that are necessary for the description of the respective Figure are depicted in the individual Figures. The depicted embodiments only represent examples of how the hydraulic camshaft adjuster according to the present disclosure, the use according to the present disclosure, and the method for installing an at least two-piece rotor of a hydraulic camshaft adjuster could be designed, and thus do not represent a closed delimiting of the present disclosure.
An axial pre-tensioning force F of a central screw 12 of the screw assembly 10 for the force-fitting pre-tensioning of the at least two-piece rotor 2 in a respective rotor bore-hole 14 in the first and second rotor elements 4, 6 is configured thereby, such that the axial pre-tensioning force F is greater than a counter-load 16 acting on the assembled at least two-piece rotor 2.
As friction increasing measures, laser structurings are provided in the embodiment shown here, of the hydraulic camshaft adjuster 1 according to one embodiment of the invention, in an interstice 18 between the central screw 12 and the respective rotor bore-hole 14 in the first and second rotor elements 4, 6 of the screw assembly 10, for example. Surface structures having different material hardnesses and/or adhesives could also be provided, however, in these interstices 18.
1 hydraulic camshaft adjuster
2 rotor
4 first rotor element
5 pin
6 second rotor element
7 oil distribution and centering sleeve
8 camshaft
10 screw assembly
12 central screw
14 rotor bore-hole
16 counter-load
18 interstice
20 adhesive and/or welded bond
A axis
F pre-tensioning force
A-A line
B-B line
C-C line
Number | Date | Country | Kind |
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10 2014 205 237.8 | Mar 2014 | DE | national |
10 2014 209 179.9 | May 2014 | DE | national |
This application is the U.S. National Phase of PCT Appln. No. PCT/DE2015/200081 filed Feb. 17, 2015, which claims priority to DE 10 2014 205 237.8 filed Mar. 20, 2014 and DE 10 2014 209 179.9 filed May 15, 2014, the entire disclosures of which are incorporated by reference herein.
Filing Document | Filing Date | Country | Kind |
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PCT/DE2015/200081 | 2/17/2015 | WO | 00 |