WO2016062511A1 - Method for producing an adjustable camshaft and adjustable camshaft - Google Patents

Abstract

The present invention relates to a method for producing an adjustable camshaft and to an adjustable camshaft of a motor vehicle, wherein the camshaft has at least one fixed cam arranged rotationally fixed on an outer shaft segment and at least one adjusting cam positioned rotationally fixed to an inner shaft extending concentrically within the outer shaft segment, wherein the method has at least the following steps: positioning an outer shaft segment on the inner shaft, generating a surface modification on the surface of the inner shaft to generate at least one positioning section, positioning the fixed cam on at least one section of the outer shaft segment, and positioning the adjustable cam on the positioning section of the inner shaft.

Description

 The present invention relates to a method of manufacturing an adjustable camshaft of a motor vehicle. Furthermore, the invention relates to an adjustable camshaft of a motor vehicle with at least one fixedly arranged on at least one outer shaft segment fixed cam and at least one with a concentric within the outer shaft segment extending inner shaft rotationally arranged adjusting cam.

For example, adjustable camshafts are used in, for example, valve-controlled internal combustion engines and serve to selectively influence the timing of the valves of the engine with regard to its power and torque development, the fuel consumption and the exhaust emission. Known manner, the adjustable camshafts are constructed such that the camshaft has an outer shaft and an inner shaft disposed coaxially in this outer shaft. The outer shaft and the inner shaft are rotatable relative to one another, for example, by means of an adjusting device. In addition, there are connected to the outer shaft cam elements and connected to the inner shaft cam elements, the cam elements of the outer shaft are rotationally mounted on the outer shaft and the cam elements of the inner shaft against rotation on the inner shaft and rotatably mounted on the outer shaft, so that in a rotation of the Outer shaft relative to the inner shaft and the outer shaft connected to the cam elements are rotated relative to the camshaft connected to the inner elements. A rotation of the inner shaft to the outer shaft or the outer shaft to the inner shaft is known, for example by means of a phaser allows so advantageously achieved a phase shift of the valve timing or the opening duration of the valves can be varied. In particular in order to produce a firm connection between the inner shaft and its associated cam elements, the inner shaft cam elements usually have recesses in which corresponding connecting elements of the inner shaft or connecting elements, which can be connected to the inner shaft, can be introduced. Such connecting elements are, for example, pins, bolts or screws. As a result, a torque transmission between the inner shaft and the cam element of the inner shaft is to be made possible advantageously.

For example, German Offenlegungsschrift DE197575404A1 discloses a corresponding camshaft having a connecting element which is in the form of a cylindrical pin is designed. This cylinder pin is inserted by means of press fit into a through bore of the inner shaft and by means of clearance in the associated cam. For this purpose, it is necessary that the corresponding cam has an outwardly cylindrical portion in which there is a bore into which the cylinder pin is introduced. Clearly shows here that a prior processing of the cam is required to connect this with the connecting element of the inner shaft. Such preparatory machining of the cam member increases manufacturing costs and manufacturing costs in the production of an adjustable camshaft assembly. Also, different manufacturing tolerances of the individual components, ie the recesses in the inner shaft area and the recesses in the cam area and in terms of fasteners lead to a variety of sources of error, so there is a possibility that during assembly of the cam with the inner shaft creates a too high clearance, so that a backlash-free transmission of the torque from the inner shaft to the cam itself can not be guaranteed.

It is therefore the object of the present invention to at least partially overcome the disadvantages described above with regard to an adjustable camshaft of a motor vehicle and in a method for producing such an adjustable camshaft of a motor vehicle. In particular, it is the object of the present invention to provide a simple and inexpensive method for producing an adjustable camshaft and an adjustable camshaft of a motor vehicle, which can be produced in a simple and cost-effective manner. Furthermore, it should be possible advantageously the individual cams quickly, easily and reliably applied to the outer shaft or the inner shaft within a monolithic hood.

The above object is achieved according to a first aspect of the present invention by a method for producing an adjustable camshaft of a motor vehicle with the features of claim 1 and according to a second aspect of the present invention by an adjustable camshaft of a motor vehicle having the features of claim 6. Further Features and details of the invention will become apparent from the dependent claims, the description and the drawings. In this case, features and details which have been described in connection with the method, of course, also in connection with the device according to the invention and in each case vice versa, so that with respect to the disclosure of the individual aspects of the invention is always reciprocal reference or can be. In addition, the adjustable camshaft according to the invention can be produced by means of the method according to the invention for producing an adjustable camshaft. The method for producing an adjustable camshaft of a motor vehicle, wherein the camshaft has at least one fixed cams rotatably mounted on at least one outer shaft segment and at least one adjusting cam rotationally fixed on an inner shaft extending concentrically within the outer shaft segment, comprises at least the following steps:

 Arranging an outer shaft segment on the inner shaft,

 Generating a surface modification on a surface of the inner shaft for producing at least one arrangement section,

 - Arrangement of the fixed cam on at least a portion of the outer shaft segment and

 - Arrangement of Verstellnockens on the arrangement portion of the camshaft.

The adjustable camshaft according to the invention has a relative to the outer shaft adjustable and in particular rotatable inner shaft, which is arranged concentrically or coaxially to the outer shaft. Advantageously, therefore, the inner shaft is within the outer shaft, which is for example in the form of a tube and thus has a through hole through which the inner shaft extends at least in sections. Advantageously, the outer shaft has at least one outer shaft segment, which consequently is in the form of a section of the outer shaft and therefore forms a blank section which does not extend completely along the longitudinal axis of the inner shaft. The adjustable camshaft also has at least one fixed cam and at least one adjusting cam, wherein the fixed cam is arranged rotationally fixed with the outer shaft and in particular the outer shaft segment, while the adjusting cam is arranged rotationally fixed to the inner shaft. In a rotation of the outer shaft relative to the inner shaft, therefore, the fixed cam is rotated relative to the adjusting cam, so consequently there is a spread in terms of the angle between the adjusting cam and the fixed cam. The here-mentioned adjustable camshaft is advantageously used in the field of motor vehicle technology, being understood as motor vehicles in the context of the invention, in particular land, air and water vehicles. Advantageously, the adjustable camshaft in the field of engine technology and in particular in the field of gasoline and diesel engine technology applicable. The adjustable camshaft advantageously serves to optimize the gas exchange and a variable compression ratio by a variation of the intake valve; to allow the reduction of pollutant and C0 ₂ emissions. Furthermore, it is conceivable that the adjustable camshaft serves to regulate the variable valve timing adjustments between inlet and outlet valves. Advantageously, the adjustable camshaft is used to the mixture formation in the injecting engine Ren to optimize by increasing the charge movement in the combustion chamber based on a targeted phase shift of the intake valves, as well as to reduce the pollutant emissions of the cold start phase of the engine by means of catalytic heating, for example, by early opening of the exhaust valve. Furthermore, it is also conceivable that such an adjustable camshaft advantageously serves to control the exhaust aftertreatment system such as the particle regeneration filter by an outlet side variability or to control the exhaust gas turbocharger system by a corresponding outlet side variability. In the context of the invention, the adjustable camshaft advantageously serves to enable the variability in the opening period of the valve lift, wherein a stepless opening duration of the entire cam profile, which extends over the fixed cam and the adjusting cam, is made possible by means of a spread of Verstellnockens relative to the fixed cam , The Ventilabgriffelement, which is for example a Rollenschlepphe- is in the first part of the valve lift curve in contact with the profile of the cam, wherein the contact changes from the transition point to the plateau-shaped profile of the adjustment. An adjustment of such a camshaft and in particular of the inner shaft relative to the outer shaft is advantageously made possible by means of a phaser and in particular a dual-phaser or a double-phaser.

In order to enable the construction of such a complex adjustable camshaft of a motor vehicle, an outer shaft segment is advantageously arranged on an inner shaft and in particular pushed. Subsequently, it is possible that an arrangement section is produced on the surface of the inner shaft, the surface of the inner shaft being modified or changed. According to the invention, the surface modification of the surface of the inner shaft for producing an arrangement section is arranged on the fixed cam on at least one section of the outer shaft segment and the adjusting cams on the inner shaft arrangement section. In the context of the invention, it is also conceivable that the aforementioned steps may also have a mutually varying sequence. Thus, it is possible for the fixed cam itself to be applied to at least a portion of the outer shaft segment or to be connected thereto or to be arranged thereon before the surface modification of the inner shaft is generated. It is also conceivable that the surface modification of the inner shaft is generated before arranging an outer shaft segment on the inner shaft. Advantageously, it is conceivable that the surface modification of the inner shaft to a non-positive and / or positive and / or material connection of the Adjusting cam with the camshaft is used to rotationally connect the adjusting cam, in particular in the region of the arrangement portion of the inner shaft with this inner shaft, so that upon rotation of the inner shaft relative to the outer shaft, the torque can be transmitted to the adjusting cam, so that it is consistent with the inner shaft this is rotated about the central axis of rotation of the inner shaft. In the context of the invention, it is irrelevant whether the outer shaft relative to the inner shaft or the inner shaft relative to the outer shaft and in particular the fixed cam relative to the adjusting cam or the adjusting cam relative to the fixed cam is rotated. Advantageously, the outer shaft segment, which is in the form of a pipe section or hollow shaft section, is pushed over the inner shaft, which is advantageously designed as a solid shaft, so that the outer shaft segment at least partially surrounds the inner shaft. Consequently, the inner shaft is arranged centrally, preferably coaxially or concentrically in the outer shaft. In the context of the invention, it is conceivable that the surface modification is produced by means of a material deposition. Thus, it is conceivable that the surface of the inner shaft is modified in such a way that it has warping of its own material, in particular in the arrangement section. An additional arranging, introducing or connecting holding means or materials on the inner shaft and / or the adjusting cam, which are intended to serve to connect the adjusting cam with the inner shaft, is thereby advantageously avoided.

Advantageously, it is conceivable that the material throwing is produced by means of rolling. In the process of rolling takes place a non-cutting machining with a rolling body, which rather serves for smoothing and solidification of material surfaces. In this case, for example, a rolling tool is pressed against the rotating inner shaft with great force advantageous, so that the material of the inner shaft begins to flow in such a way that it is thus displaced. Advantageously, the method of rolling is performed by means of tools such as roller burnishing, which have a roughened active surface. By means of the method of rolling, and in particular the production of a material deposition on the surface of the inner shaft for generating at least one arrangement section and advantageously a plurality of arrangement section on the inner shaft, consequently, the outer diameter of the inner shaft increases at least in the area. If a cam is pushed onto the inner shaft after generation of the arrangement section or the material placement, which cam advantageously has a through bore through which the inner shaft can extend, at least one non-positive connection between at least in the region of the arrangement section which has a surface modification. see the cam and the inner shaft and in particular the modified surface of the inner shaft instead. If a surface modification and in particular a rolling of the surface of the inner shaft before pushing the fixed cam on the inner shaft and connecting the fixed cam with the outer shaft segment carried out, it is advantageously conceivable that the fixed cam itself has a through hole, which is larger in diameter is, as the diameter of the through hole of the adjusting cam, in order to be pushed over the surface modification of the surface of the inner shaft, without that, for example, a frictional connection between the fixed cam and the inner shaft is generated. However, it would also be conceivable for the fixed cam and the adjusting cam to have a substantially comparably dimensioned through-bore diameter, wherein it would be necessary here for the fixed cam to be pushed onto the inner shaft before the surface modification of the inner shaft is generated and advantageously also be arranged on the outer shaft segment. In the context of the invention, it is advantageously possible for the clamping lug to be frictionally connected to the outer shaft segment and in particular to a distal end of the outer shaft segment. However, it is also conceivable that the arrangement of the fixed cam with the outer shaft segment via a positive and / or a material connection takes place. Advantageously, the fixed cam is slid over at least a portion of the outer shaft segment, wherein the fixed cam advantageously has a through hole diameter which substantially corresponds to the outer diameter of the outer shaft segment to advantageously produce a press-fit connection between the outer shaft segment and the fixed cam. However, it is also conceivable that the outer shaft segment has an insertion region, which can be configured in the form of an insertion bevel, a shoulder or a recess or the like. This insertion region is advantageously used to ensure that the fixed cam is rotationally connected to the outer shaft segment via this insertion region. Advantageously, the lead-in area, in particular a section of this lead-in area, also serves as a delimiting area, in order to prevent a further or an unplanned over-pushing of the fixed cam on the outer-shaft segment.

Advantageously, the adjustable camshaft has at least two fixed cams connected to one outer shaft segment each and an adjusting cam arranged between the fixed cams and rotationally connected to the inner shafts. Consequently, a cam package itself, which has a cam profile, consists of more than one fixed cam and one adjusting cam, namely advantageously at least two fixed cams and one adjusting cam, which is arranged between the two fixed cams. Consequently, it is conceivable that another fixed cam adjacent to the adjusting cam and another Au ßenwellensegment adjacent to the other fixed cam on the inner shaft are arranged, wherein the further fixed cam is arranged on the other outer shaft segment and in particular rotationally connected thereto. The construction or assembly of the adjustable camshaft accordingly takes place in a modular design, in particular due to the advantageous modular construction of the outer shaft, which consists of at least one outer shaft module and advantageously consists of two or more outer shaft segments.

Advantageously, the fixed cam or the two fixed cams of a cam pack are connected to the outer shaft segment at least in a force-locking or positive-locking or material-locking manner. However, it is also conceivable that the fixed cam is non-positively and positively and materially connected to the outer shaft segment. The same applies to the connection between the adjusting cam and the inner shaft segment, which may also be connected to the inner segment at least non-positively or positively or materially. It is advantageous, however, that the adjusting cam is positively connected via the material posing with the inner shaft. Advantageously, a non-positive connection between the connecting cam and the outer shaft segment and the adjusting cam and the inner shaft enables a simple and cost-effective production or assembly of an adjustable camshaft for motor vehicles. It is further claimed an adjustable camshaft of a motor vehicle, which has at least one rotationally fixed on an outer shaft segment fixed cam and at least one concentrically within the outer shaft segment extending inner shaft rotationally arranged adjusting cam, wherein the adjusting cam at least partially non-positively with an at least partially along the inner shaft extending assembly portion of the inner shaft is connected, wherein the arrangement portion has a surface modification of the surface of the inner shaft. As already explained in advance, the outer shaft segment is advantageous in the form of a pipe segment with a lateral surface and a through hole, through which extends at least partially the camshaft configured. The inner shaft is advantageously a cylindrical rod-shaped element, particularly advantageously a solid shaft, which extends at least in sections through the through hole of the outer shaft segment. In the case of the adjustable camshaft, the adjusting cams can be arranged to be rotatable or adjustable relative to the fixed cams in order to change a cam profile of a cam pack, which is formed from at least one fixed cam and at least one adjusting cam. The adjusting cam and the fixed cams each advantageously have a through hole through which extends at least a portion of the inner shaft. Advantageously, the fixed cam has such a dimensioned Through hole on that at least the outer shaft segment can extend in sections through this through hole or at least partially extend into the through hole. Advantageously, it is conceivable that the adjusting cam is placed between two fixed cams, which are designed as a single Festnockenelemente or as a common Festnockenelement in double anvil design. In the context of the invention, the term "double anvil" design is understood to mean an embodiment of the fixed cams in which the fixed cams have a common base region through which the throughbore extends, while in particular the camming region of the solid cams is designed to be mutually spaced. Consequently, a recess is provided between these two fixed cams interconnected in the base region, within which the adjusting cam is inserted. The fixed cams or the fixed cams and the adjusting cams are advantageously concentric to each other, so that upon rotation of the fixed cams for the adjusting cams or the adjusting cams to the fixed cams, the cams are rotated about an identical axis of rotation. Advantageously, the fixed cams and the adjusting cams form a common cam profile, which can be varied based on the relative rotational movement between the fixed cams and the adjusting cams. Particularly advantageously, the adjusting cam and in particular the Verstellnockenkontur comes into contact with a corresponding interacting with the respective cam contour tap element, such as a drag lever for transmitting the rotational movement of the camshaft in a translational movement to control the valves, if the Verstellnocken is rotated relative to the fixed cam and Consequently, the cam contour of the adjusting cam shifts relative to the cam contour of the fixed cam or the fixed cams or assumes a changed position.

Advantageously, the surface modification of the surface of the inner shaft is a Materialaufwerfung, which is produced for example by means of the Rollierverfahrens. Thus, it is conceivable that the adjusting cam is connected by means of a pressing and in particular by means of a frictional connection in the arrangement section with the inner shaft, so that upon rotation of the inner shaft and a rotation of the adjusting cam takes place.

In the context of the invention, it is possible that the camshaft has at least two outer shaft segments, to each of which a fixed cam is arranged rotationally fixed. Advantageously, therefore, the adjusting cam is enclosed by two fixed cams and correspondingly connected to the fixed cams outer shaft segments. Such a modular construction, in particular the outer shaft by means of the use of individual outer shaft segments and the design of the cam package, advantageously comprising at least a fixed cam and at least one adjusting cam and particularly advantageously at least two fixed cams and arranged between the fixed cam adjusting cam, advantageously allows easy production of the adjustable camshaft. In the context of the invention, it is further conceivable that the outer shaft segment has at least one distal lateral surface region whose outer diameter is dimensioned at least in sections smaller than an outer diameter of the remaining lateral surface. Accordingly, the outer shaft segment advantageously has an insertion region at least at one of the distal ends and advantageously at both distal ends in the region of the lateral surface. This insertion area is advantageously used to postpone the fixed cam at least in sections on the outer shaft segment and advantageous to a section. The insertion region is advantageously designed in the form of a substantially continuously decreasing or rising lead-in chamfer, a diameter taper, a recess, a shoulder or in a comparable geometric shape, by means of which an outer diameter, dimensioned at least in sections, in the insertion region, than in remaining outer shaft segment. It is furthermore conceivable that the length of these insertion areas or insertion area considered in the longitudinal direction of the outer shaft segment essentially corresponds to the width of the fixed cam, so that the fixed cam is advantageously completely, but at least almost completely arrangeable and moreover advantageously with the outer shaft segment is rotationally connected.

In the context of the invention, it is advantageously conceivable that the adjusting cam and the fixed cam are arranged concentrically with respect to one another and that the through-bore of the fixed nose is dimensioned larger than the through-bore of the adjusting cam. This is particularly advantageous when an assembly of the entire cam package, advantageously consisting of at least one fixed cam and a Verstellnocke, after applying the material posing on the inner shaft is pushed onto this inner shaft. Advantageously, the through bore of the adjusting cam is dimensioned approximately as large as the outer diameter or the circumferential diameter of the inner shaft. In contrast, the through hole of the fixed cam is larger than the outer diameter or the circumferential diameter, the inner shaft dimensioned and particularly advantageous larger than the outer diameter of the material launching or rolling to allow this over there sliding away of the fixed cam on the Materialaufwerfung the inner shaft during the assembly process. Advantageously, the through hole of the fixed cam is maximally identical to the outer diameter or to the circumferential diameter of the outer shaft segment in order to ensure a safe arrangement of the fixed cam on the outer shaft segment, in particular by means of a press fit, advantageously by generating a positive connection to allow. By using a non-positive connections between the fixed cam and the outer shaft segment as well as between the adjusting cam and the inner shaft a simple and cost-effective as well as a process-reliable production and a permanent use of the adjustable camshaft is possible.

In the described adjustable camshaft, all the advantages that have already been described for a method for producing an adjustable camshaft according to the first aspect of the invention.

Be embodiments of an adjustable camshaft invention

Gend explained in more detail with reference to drawings. Each show schematically:

Figure 1 is a perspective view of an embodiment of an adjustable

 Camshaft,

2 shows in a sectional side view an embodiment of an adjustable camshaft according to the invention, FIG. 3 shows in a lateral sectional view an enlargement of the detail C, as shown in FIG.

FIG. 4 shows a perspective view of an embodiment of a cam assembly of an adjustable camshaft according to the invention,

FIG. 5 shows a side sectional view of an embodiment of a cam pack of a camshaft according to the invention,

Figure 6 is a perspective view of a detail of an embodiment of a camshaft according to the invention aufzeigend a cam package in a first positioning and

FIG. 7 shows a perspective view of the detail of the camshaft according to the invention shown in FIG. 7 in a second positioning of the cam pack. Elements with the same function and mode of operation are each provided with the same reference numerals in FIGS.

FIG. 1 shows a perspective view of an embodiment of an adjustable camshaft 1 according to the invention. The camshaft 1 has an inner shaft 2 and two outer shaft segments 3.1 and 3.2. Each outer shaft segment 3.1, 3.2 has at least one insertion region 10, which is formed on a distal lateral surface region 12. The fixed cams 7.1, 7.2 are, as shown in the embodiment of Figure 1, a component of a cam package 4.1, 4.2, wherein it is conceivable that the camshaft 1 may have a plurality of such cam packages 4.1, 4.2. Each cam package 4.1, 4.2 has a first fixed cam 7.1 and a second fixed cam 7.2, wherein an adjusting cam is arranged between the two fixed cam, 7.1, 7.2. Advantageously, the inner shaft 2 extends through the through-bore of the fixed cams B _F shown in FIG. 1, as well as through a through bore (not shown here) of the adjusting cams 8 and through a corresponding through-bore (not shown here) of the outer shaft segments 3.1 and 3.2. The arrangement of the fixed cam 7.1, 7.2 and the adjusting cam 8 are illustrated in particular in Figures 2 and 3.

A sectional view of an embodiment of the adjustable camshaft 1 according to the invention is shown in FIGS. 2 and 3 in a side view, with FIG. 3 showing an enlarged view of the region C, as shown in FIG. The section of an embodiment of a camshaft 1 according to the invention shown in FIGS. 2 and 2 has at least one cam pack 4 which has a first fixed cam 7.1 and a second fixed cam 7.2 and an adjusting cam 8 arranged between the fixed cam 7.1 and 7.2. As can be seen from Figures 2 and 3, the

Through hole B _{F of} the fixed cam 7.1 and 7.2 a larger diameter than the through hole B _v of Verstellnockens 8. This makes it possible advantageously that during assembly of the adjustable camshaft 1, the cam package 4 in a preassembled state, that is, consisting of the two Fixed cams 7.1 and 7.2 and the adjusting cam 8 can be pushed over the inner shaft 2, wherein it is conceivable that the inner shaft 2 in this case has already been subjected to a surface modification 20 and in particular a material launch in the form of a roll. Based on the different diameters B _v , B _{F of} the holes of fixed cams 7.1, 7.2 and adjusting cam 8 is thus ensured that in particular when pushing the cam package 4 on the inner shaft 2 in particular the first fixed cam 7.1 on the surface modification 20 and in particular the Materialaufwerfung 20 of the inner shaft 2 is moved over, while in a further movement of the cam package 4 along the inner shaft 2, in particular in the direction of the arrow P, a contacting between the surface of the throughbore B _{v of} the adjusting cam 8 and the material launch 20 or the surface modification 20 of the inner shaft 2 takes place. As a result, a frictional connection between the adjusting cam 8 and the inner shaft 2 is advantageously made possible. It is conceivable that after the assembly of the cam package 4 on the inner shaft 2 and an arrangement of Verstellnockens 8 on the arrangement portion 21 of the inner shaft 2, which has the surface modification 20, advantageously a first outer shaft segment 3.1 and a second outer shaft segment 3.2 pushed onto the inner shaft 2 becomes. It would also be conceivable for the first outer shaft segment 3.1 or 3.2, depending on the mounting direction, to have already been pushed onto the inner shaft 2 before the cam assembly 4 was applied.

As shown in FIGS. 2 and 3, both outer shaft segments 3.1 and 3.2 advantageously have an insertion region 10 at both distal ends 12 and in particular at the distal lateral surface regions 12. This insertion region can be designed, for example, in the form of a shoulder, an insertion bevel, a recess or recess or in a comparable geometrically changing shape of the lateral surface. Advantageously, the outer diameter and in particular the circumferential diameter of the outer shaft segments 3.1 and 3.2 in the region of the insertion regions 10, as indicated by the reference character Da, a smaller diameter than in the remaining region of the outer shaft segment, as indicated by the reference character Db. The shape and shape or geometric configuration of the insertion regions 10 should not be limited to a defined geometric shape within the scope of the invention. Rather, it should be noted that the insertion regions 10 are configured in such a way that advantageously a non-positive connection between the fixed cams 7.1 and 7.2 and the respective outer shaft segments 3.1 or 3.2 is ensured. Advantageously, the insertion region 10 of the respective outer shaft segment 3.1 or 3.2 also serves to prevent the cam package 4 or the fixed cams 7.1 or 7.2 of the cam assembly 4 from being applied too far to the outer shaft segment 3.1 b between 3.2. In the context of the invention, it would also be conceivable for the outer shaft segment 3.1 or 3.2 to be first pushed or applied onto the inner shaft 2 before a rolling of the inner shaft 2 and in particular a surface treatment of the inner shaft 2 to produce a surface modification 20 takes place. Accordingly, it would be conceivable that, in the method for producing the camshaft according to the invention, a first outer-shaft segment 3.1 is first pushed onto an inner shaft 2, which is applied, for example, in a chuck on a cam-setting machine. Subsequently, the rolling of the inner shaft 2 could take place in order to prevent material deposition 20 on the surface of the inner shaft 2. wave 2 to produce. In a further step, it would be conceivable that the cam package 4, advantageously with threaded or arranged between the fixed cam 7.1 adjusting cam 8, is applied to the inner shaft 2, so that there is a non-positive connection between the first fixed cam 7.1 and the first outer shaft segment 3.1 and the adjusting cam 8 and the surface modification 20 and the material launch 20 of the inner shaft 2 comes. In a further subsequent step, it would be conceivable for a second outer shaft segment 3.2 to be pushed onto the inner shaft 2 and into the region of the cam stack 4 on the inner shaft 2 such that, in particular, the insertion region 10 is frictionally connected to the second fixed cam 7.2 of the cam stack 4 , It is conceivable that a distance exists between the outer shaft segments 3.1 and 3.2 and the adjusting cam 8 in order to prevent a contacting of the outer shaft segments 3.1 and 3.2 with the adjusting cam 8. Advantageously, a friction in the movement between the outer shaft or outer shaft segments 3.1, 3.2 and inner shaft 2 and in particular between fixed cam 7.1 and 7.2 and adjusting cam 8 is prevented. Too much postponement of the fixed cam 3.1, 3.2 on the outer shaft segments 3.1, 3.2 is advantageously made possible by a limiting element 9, as shown for example in FIG. This delimiting element 9 is advantageously a component of the insertion region 10 and has a wall which extends substantially-at least in sections-in the radial direction.

FIG. 4 shows a perspective view of an embodiment of a cam pack 4, which is an element of the adjustable camshaft 1 according to the invention. The cam package 4 has a first fixed cam 7.1 and a second fixed cam 7.2, which include the adjusting cam 8. The adjusting cam 8 advantageously has an identical cam contour to the fixed cams 7.1 and 7.2 and is mounted concentrically to the fixed cams 7.1 and 7.2, so that upon movement of the adjusting cam 8 relative to the fixed cams 7.1 and 7.2, a rotation of the cams 7.1, 7.2, 8 order a common axis of rotation D, as shown in particular in FIG. 4, can take place. Advantageously, the adjusting cam 8 is designed to be relatively movable relative to the fixed cams 7.1 and 7.2. As shown in FIG. 4, the through-bore B _{F of} the fixed cam 7.1 or 7.2 as well as the through-bore B _{v of} the adjusting cam 8 each have-at least in sections-a structured surface 30 or 31, which are identical to one another or else designed differently from one another can. Based on this structured surface 30, 31 is a non-positive connection between the fixed cam 7.1, 7.2 and the surfaces of the outer shaft segments 3.1 and 3.2 as well as between the adjusting cam 8 and the surface of the inner shaft 2, such as in Figs 3, optimized. The fixed cams 7.1 and 7.2 are advantageous in their base 7.3 with each other connected and thus form a consisting of two cam profiles fixed cams. Such an arrangement of fixed cams to each other is also referred to in the context of the invention as a double anvil. Between the cam contours of each fixed cam 7.1 and 7.2, which are spaced from each other, thus a recess is formed, in which the adjusting cam 8 is enclosed. However, it would also be conceivable that only one adjusting cam 8 and e3 are arranged in fixed cam 7.1 or 7.2. Advantageously, at least the fixed cam 7.1 or 7.2 and / or the adjusting cam 8 could be pressed onto a sleeve (not shown here), this sleeve at least with an outer shaft segment 3.1 or 3.2 or with the inner shaft 2, advantageously using a frictional Connection, be operatively connected or can be.

In FIG. 5, a sectional view of an embodiment of a cam package 4 is shown schematically in a side view. The cam package 4 shown in FIG. 5 advantageously has a first fixed cam 7.1 and a second fixed cam 7.2, not shown here, between which an adjusting cam 8 is arranged. As shown in particular in FIG. 5, the adjusting cam 8 has a through hole B _v , which is dimensioned smaller than the through hole B _{F of} the fixed cams 7.1 and 7.2. The fixed cams 7.1 or 7.2 or configured as a double anvil fixed cam element can be moved about an adjusting cam 8 identical axis of rotation D, so consequently the fixed cams 7.1, 7.2 and the adjusting cam 8 concentric or coaxial with respect to their axis of rotation D to each other. Furthermore, the adjusting cam 8 has an open position 1 1 within which the transitional area 7.4 of the basic area 7.3 of the double-apex fixed cam runs. Based on the exemption 1 1 of the adjusting cam 8, a rotation of the adjusting cam 8 relative to the fixed cam 7.1 or 7.2 is possible. Advantageously, this free position 11 also serves to support the inner shaft 2 in at least one of the outer shaft segments 3.1, 3.2.

The movement or rotational movement of the adjusting cam 8 is relative to the fixed cam 7.1 or 7.2 and in particular the adjustment of the cam stack 4 is advantageously shown in Figs. 6 and 7. Thus, Fig. 6 shows a perspective view schematically a cutout of an embodiment of a camshaft 1 according to the invention with a cam package 4 in a first positioning, in which the adjusting cam 8 has experienced no rotational movement relative to the fixed cam 7.1 or 7.2. Consequently, the cam package 4 has a flat cam contour. During a rotational movement of the inner shaft 2 relative to the outer shaft or the outer shaft segments 3.1 or 3.2, consequently, a rotational movement of the adjusting cam 8 takes place relative to the fixed cams 7.1 or 7.2. As a result, the cam package 4 experiences a spread of the adjusting cam 8 relative to the fixed cams 7.1 and 7.2, as shown in particular in FIG. 7. Based on the spread, consequently, the cam profile of the entire cam pack 4, via which a tap element controls an adjustment or adjustment of intake and / or exhaust valves, is changed. Advantageously, with the inventive method for producing an adjustable camshaft and also with the adjustable camshaft according to the invention of a motor vehicle, advantageously produced by the method according to the invention, a production or production and assembly of an adjustable camshaft in a simple and cost-effective manner. Arranging a connecting element, such as in a pinning, for connecting the inner shaft with the adjusting cam is therefore advantageously no longer necessary. In addition, it is advantageous to mention that a production or assembly of the adjustable camshaft is made possible in a single system by means of the method according to the invention, wherein the individual elements, ie the inner shaft and the outer shaft segments, the cam package with the fixed cams and the adjusting cam in a common system can be mounted. This advantageously prevents the time-consuming and costly transport of semi-finished products and avoids damage to semi-assembled or preassembled camshafts. Furthermore, it is advantageous that also ground cams and in particular ground fixed cams or ground adjusting cams can be installed by means of the method according to the invention.

LIST OF REFERENCE NUMBERS

1 camshaft

 2 inner shaft

 3.1 first outer shaft segment

 3.2 second outer shaft segment

 4.1 first cam package

 4.2 second cam package

4 cam package

 7.1 first fixed cam

 7.2 second fixed cam

 7.3 Basic area

 7.4 Transition area

 8 adjustment cams

 9 limiting element

 10 import area

 1 1 exemption

 12 distal end / distal lateral surface area

20 Surface modification / material launch

21 arrangement section

 30 structured surface of the fixed cam

31 textured surface of the adjustment cam B _F Through hole of the fixed cam

B _v Through hole of the adjusting cam

 D rotation axis

 Because outer diameter distal lateral surface area

Db outer diameter of the remaining lateral surface

P arrow direction

Claims

claims

1 . Method for producing an adjustable camshaft (1) of a motor vehicle, wherein the camshaft (1) has at least one fixed cam (7.1, 7.2) rotationally fixed to at least one outer shaft segment (3.1, 3.2) and at least one concentrically within the outer shaft segment (3.1, 3.2) extending inner shaft (2) rotationally arranged adjusting cam (8), comprising at least the following steps:

 - Arranging an outer shaft segment (3.1, 3.2) on the inner shaft (2);

 Producing a surface modification (20) on a surface of the inner shaft (2) for producing at least one arrangement section (21),

 - Arranging the fixed cam (7.1, 7.2) on at least a portion of the outer shaft segment (3.2, 3.2) and

 - Arranging the adjusting cam (8) on the arrangement portion (21) of the inner shaft (2).

2. Method according to claim 1,

 characterized in that

 the surface modification (20) is produced by means of a material launch.

3. The method according to claim 2,

 characterized in that

 the Materialaufwerfung is generated by rolling.

4. Method according to at least one of the preceding claims,

 characterized in that

 a further fixed cam (7.1, 7.2) adjacent to the adjusting cam (8) and a further outer shaft segment (3.1, 3.2) adjacent to the further fixed cam (7.1, 7.2) are arranged on the inner shaft (2), wherein the further fixed cam (7.1, 7.2) is arranged on the further outer shaft segment (3.1, 3.2).

5. Method according to at least one of the preceding claims,

 characterized in that

the fixed cam (8) is at least positively or positively or materially connected to the outer shaft segment (3.1, 3.2).

6. Adjustable camshaft (1) of a motor vehicle, which at least one on an outer shaft segment (3.1, 3.2) rotationally fixed fixed cam (7.1, 7.2) and at least one on a concentric within the outer shaft segment (3.1, 3.2) extending inner shaft (2) rotationally arranged Verstellnocken (8), wherein the adjusting cam (8) at least frictionally connected to an at least partially along the inner shaft (2) extending arrangement portion (21) of the inner shaft (2), wherein the arrangement portion (21) has a surface modification (20) the surface of the inner shaft (2).

7. Adjustable camshaft (1) according to claim 6,

 characterized in that

 the adjusting cam (8) between two fixed cam (7.1, 7.2) is placed, which are designed as a single Festnockenelemente or as a common Festnockenelement in double anvil design.

8. Adjustable camshaft (1) according to at least one of the preceding claims 6 or 7,

 characterized in that

 the camshaft (1) has at least two outer shaft segments (3.1, 3.2) on which in each case a fixed cam (7.1, 7.2) is arranged rotationally fixed.

9. Adjustable camshaft (1) according to at least one of the preceding claims 6 to 8,

 characterized in that

 the outer shaft segment (3.1, 3.2) has at least one distal lateral surface region (12) whose outer diameter (Da) is at least partially dimensioned smaller than an outer diameter (Db) of the remaining lateral surface.

10. Adjustable camshaft (1) according to at least one of the preceding claims 6 to 9,

 characterized in that

the adjusting cam (8) and the fixed cam (7.1, 7.2) are arranged concentrically to each other, and that the through hole (B _F ) of the fixed cam (7.1, 7.2) is dimensioned larger than the through hole (B _v ) of the adjusting cam (8).