EP2739830B1 - Valvetrain of an internal combustion engine, an internal combustion engine, and a method for producing a corresponding valvetrain - Google Patents
Valvetrain of an internal combustion engine, an internal combustion engine, and a method for producing a corresponding valvetrain Download PDFInfo
- Publication number
- EP2739830B1 EP2739830B1 EP12743087.4A EP12743087A EP2739830B1 EP 2739830 B1 EP2739830 B1 EP 2739830B1 EP 12743087 A EP12743087 A EP 12743087A EP 2739830 B1 EP2739830 B1 EP 2739830B1
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- EP
- European Patent Office
- Prior art keywords
- cam
- elements
- camshaft
- basic
- valve
- Prior art date
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- 238000002485 combustion reaction Methods 0.000 title claims description 20
- 238000004519 manufacturing process Methods 0.000 title claims description 16
- 230000000284 resting effect Effects 0.000 claims 1
- 238000006073 displacement reaction Methods 0.000 description 8
- 238000010276 construction Methods 0.000 description 3
- 239000000463 material Substances 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 230000001747 exhibiting effect Effects 0.000 description 2
- 125000006850 spacer group Chemical group 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 239000000969 carrier Substances 0.000 description 1
- 230000001419 dependent effect Effects 0.000 description 1
- 238000010894 electron beam technology Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000003780 insertion Methods 0.000 description 1
- 230000037431 insertion Effects 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 239000007769 metal material Substances 0.000 description 1
- 238000005121 nitriding Methods 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
- 238000003860 storage Methods 0.000 description 1
Images
Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L1/00—Valve-gear or valve arrangements, e.g. lift-valve gear
- F01L1/02—Valve drive
- F01L1/04—Valve drive by means of cams, camshafts, cam discs, eccentrics or the like
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L1/00—Valve-gear or valve arrangements, e.g. lift-valve gear
- F01L1/02—Valve drive
- F01L1/04—Valve drive by means of cams, camshafts, cam discs, eccentrics or the like
- F01L1/047—Camshafts
- F01L1/053—Camshafts overhead type
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L13/00—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations
- F01L13/0015—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for optimising engine performances by modifying valve lift according to various working parameters, e.g. rotational speed, load, torque
- F01L13/0036—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for optimising engine performances by modifying valve lift according to various working parameters, e.g. rotational speed, load, torque the valves being driven by two or more cams with different shape, size or timing or a single cam profiled in axial and radial direction
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01L—CYCLICALLY OPERATING VALVES FOR MACHINES OR ENGINES
- F01L13/00—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations
- F01L13/0015—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for optimising engine performances by modifying valve lift according to various working parameters, e.g. rotational speed, load, torque
- F01L13/0036—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for optimising engine performances by modifying valve lift according to various working parameters, e.g. rotational speed, load, torque the valves being driven by two or more cams with different shape, size or timing or a single cam profiled in axial and radial direction
- F01L13/0042—Modifications of valve-gear to facilitate reversing, braking, starting, changing compression ratio, or other specific operations for optimising engine performances by modifying valve lift according to various working parameters, e.g. rotational speed, load, torque the valves being driven by two or more cams with different shape, size or timing or a single cam profiled in axial and radial direction with cams being profiled in axial and radial direction
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
- Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
- Y10T29/00—Metal working
- Y10T29/49—Method of mechanical manufacture
- Y10T29/49229—Prime mover or fluid pump making
- Y10T29/49293—Camshaft making
Definitions
- the invention relates to a valve train of an internal combustion engine, with at least one base camshaft, on the rotatably and axially displaceable at least one Ventilbetuschistsnocken exhibiting cam carrier is provided, wherein the cam carrier has a tubular, the base camshaft at least partially receiving basic element on which at least one cam element of the cam carrier , in particular the valve actuating cam, is arranged.
- the invention further relates to an internal combustion engine and to a method for producing a valve drive.
- Valve trains of the type mentioned are known from the prior art. They are used for internal combustion engines, in which the cycle of gas exchange valves of individual cylinders of the internal combustion engine can be influenced to improve the thermodynamic property.
- the at least one cam carrier which may also be referred to as a cam piece, is arranged rotationally fixed and axially displaceable on the base camshaft. The displacement of the cam carrier in the axial direction takes place with the aid of an adjusting device, which comprises a shift gate on the cam carrier and a stationarily arranged actuator, usually in a cylinder head of the internal combustion engine.
- the actuator has an extendable driver, which can be engaged with a helical or spiral groove of the shift gate.
- the cam carrier is associated with the at least one valve actuating cam.
- the valve actuating cam cooperates preferably with a roller rocker arm of the gas exchange valve by coming into abutting contact with this.
- valve actuation cams are provided, which may be assigned to different cam groups.
- the valve actuation cams can become now differ in the angular position, the extent in the radial direction and / or in the circumferential direction of their eccentricity.
- the cam carrier By the axial displacement of the cam carrier it can be brought into at least two, for example in a first and a second setting position.
- the gas exchange valve In the first setting position, the gas exchange valve is actuated by a first of the valve actuation cams and in the second actuation position by a second one of the valve actuation cams associated with the same cam group.
- the displacement of the cam carrier can thus in particular the opening time, the opening duration and / or the stroke of the gas exchange valve, in particular as a function of an operating condition of the internal combustion engine, select.
- cam carrier are integrally formed and are made of a solid metal material, which is subjected to various manufacturing steps.
- the manufacturing steps include, for example, clearing internal teeth of the cam carrier, grinding or twisting cylindrical portions for pivotal support of the cam carrier, electron beam hardening of a surface of the valve operating cam, and gas nitriding of surfaces in the region of the shift gate. These manufacturing steps cause a not inconsiderable expense and thus costs.
- split bearings with two bearing shells or bearing shell halves are required, which on the one hand causes additional manufacturing and assembly costs and on the other hand increased friction losses in the case of an imperfect pairing of the two bearing shells or bearing shell halves.
- the cam carrier may be of modular design and for this purpose consist of the base element and the at least one cam element.
- the base member is substantially tubular and receives the base camshaft at least partially. For this purpose it surrounds the base camshaft in the circumferential direction at least partially, preferably completely.
- the base member preferably has an internal toothing, which engages in an external toothing of the base camshaft for rotationally fixed holding the base member to the base camshaft.
- the basic element can be pulled completely with internal toothing as a profile and is so easy and inexpensive to produce.
- the at least one cam element is arranged on the base element.
- the cam element is designed in particular as a cam disk.
- the valve actuating cam is present as a cam element.
- the cam member may alternatively be another element, such as the shift gate, a spacer or a Be locking.
- the cam member is preferably made of bearing steel, which (fine) punched and ground or cleared on its inside. The same or similar cam elements can be ground or cleared together, which allows an efficient and cost-effective production.
- a camshaft for an internal combustion engine known.
- This consists of a basic shaft having at least one external toothing, and at least one cam carrier having at least one internal toothing cooperating with the external toothing and axially displaceably mounted on the fundamental shaft.
- the external toothing or the internal toothing should be made of plastic, wherein the cam carrier is injection molded from plastic around the cam elements.
- the cam carrier is injection molded from plastic around the cam elements.
- the document is from the prior art DE 10 2010 004 591 A1 known.
- This relates to a cam carrier for a valve train of an internal combustion engine, with at least one valve actuating cam, and with at least one internal toothing and at least one shift gate for moving the cam carrier on a base camshaft of the valve train.
- the cam carrier is composed of a provided with the internal toothing base tube and a plurality of rotatably mounted on the base tube parts, where the formed at least one valve actuating cam and the at least one shift gate are.
- valve train having the features of claim 1. It is provided that between the base member and the cam member at least one torque transmitting connecting element is arranged. It is therefore not, as known from the prior art, provided that the cam carrier is injected around the cam member, whereby an attachment of the cam member achieved at this. Rather, the connecting element should be present between the base element and the cam element arranged thereon, which fixes the cam element at least in the circumferential direction relative to the base element and thus ensures reliable torque transmission from the base element to the cam element.
- the connecting element is preferably a sintered element, which is cured or through hardened.
- the valve train according to the invention has the advantage that it has a modular design, so that its individual components, ie base camshaft and cam carrier or base element and cam element can consist of a material selected according to the respective load. In addition, material-specific manufacturing processes can be selected during production. For each of the elements of the valve train thus the most advantageous material can be used.
- the modular nature of the valve train is particularly important in an embodiment in which the cam member is attachable to the base member.
- a development of the invention provides that the connecting element at least partially engages in a holding opening of the base member and is held in this at least in the circumferential direction, in particular additionally in the axial direction, in a form-fitting manner.
- the basic element therefore has the holding opening. This is preferably in a jacket or a lateral surface of the tubular base member or passes through this.
- the connecting element now engages at least partially in the holding opening, wherein the connecting element and the holding opening are adapted in shape such that at least one positive holding of the connecting element in the circumferential direction is realized.
- the holding opening is preferably designed as a slot extending in the axial direction.
- the connecting element is held in a form-fitting manner in the retaining opening in the axial direction.
- the holding opening allows a displacement of the connecting element in the axial direction to some extent.
- only one holding region of the connecting element is arranged in the holding opening, while a support region of the connecting element rests on a wall of the base element, in particular its jacket or lateral surface, and projects in the radial direction over the base element.
- At least the support region may be formed substantially cuboid.
- the side of the support region facing the base element is adapted in shape to the base element, so that it rests substantially flat against the base element. Due to the interaction of the holding opening and the connecting element is the latter with respect a rotational axis of the base camshaft rotationally fixed to the base element.
- a development of the invention provides that the connecting element at least partially engages in a fixing opening of the cam member and in this fixed in the circumferential direction, in particular in the axial direction, is mounted. Accordingly, the fixing opening, as well as the holding opening of the basic element, is adapted in shape to the connecting element in such a way that a form-locking holding of the cam element in the circumferential direction is realized. Accordingly, the cam member is rotatably connected to the base member via the connecting element. It can be provided that the cam member is movable in the axial direction despite the stationary in the circumferential direction bearing. This is achieved in particular by the fixing opening completely penetrating the cam element in the axial direction. In this way, an attachment of the cam member is possible in an assembly of the valve train.
- the connecting element advantageously consists of the holding area and a support area. While the holding area engages in the holding opening of the base element, the support area should at least partially engage in the fixing opening of the cam element.
- the connecting element thus engages in the radial direction both in the base element and the cam member.
- a development of the invention provides that a plurality of cam elements are provided, which are fixed by contact contact with adjacent cam elements in the axial direction. It is therefore not intended that the individual cam elements are fastened by means of separate fastening means in the axial direction of the base member. Rather, they should be arranged to each other such that they are non-displaceable in the axial direction.
- cam elements arranged on the end side of the cam carrier or the basic element are designed as locking elements, for example. The locking elements are held stationary in the axial direction with respect to the base element, whereby the other cam elements are fixed in the axial direction.
- the locking element is for example a hardened sintered element.
- a development of the invention provides that - viewed in the circumferential direction - the base element only a single holding opening and / or the cam member have only a single fixing opening. In the circumferential direction, therefore, not more holding openings or a plurality of fixing openings are arranged side by side. Lies several Holding openings or fixing openings, they are offset in the axial direction and preferably spaced from each other. Alternatively, it is of course also possible to provide a plurality of holding openings or fixing openings in the circumferential direction, each with a connecting element arranged therein. In this case, the holding openings and fixing openings are preferably distributed uniformly over the circumference of the basic element or of the cam element. In particular, two of the holding or fixing openings are diametrically opposite each other.
- the connecting element forms a holding device for axially fixing the cam carrier with respect to the base camshaft at least with, in particular by the holding opening completely engages through a wall of the base member in the radial direction.
- the holding device serves to hold the cam carrier in the axial direction with respect to the base camshaft.
- the axial fixing need not be permanent.
- the holding device allows an axial displacement between at least two axial positions.
- the holding device may in particular be designed such that for leaving one of the axial positions a sufficiently large force in the axial direction must be applied to the cam carrier. Only when applying this force of the cam carrier is moved out of its current axial position and takes the adjacent axial position. In principle, any number of such axial positions can be provided.
- conventional designs of the valve train have only two or three axial positions.
- the holding device may in particular be designed as a latching device, wherein a latching element is provided in a radial recess of the base camshaft.
- the latching element may, for example, be resilient or spring-loaded by a spring element, so that it is urged in the direction of the connecting element.
- the connecting element has at least one latching recess into which the latching element can engage in a latching manner. In this case, one of the number of desired axial positions of the cam carrier corresponding number of latching recesses is provided, which are spaced from each other in the axial direction of the connecting element.
- the cam carrier can be displaced in the axial direction with respect to the base camshaft, wherein in such a shift each time the locking force of the locking device must be overcome.
- the cam carrier remains in its current axial position and is held reliably in this.
- the retaining opening completely penetrates the wall of the base member in the radial direction, so that the locking element can pass through the retaining opening into latching connection with the connecting element.
- a development of the invention provides that a plurality of connecting elements spaced apart in the axial direction, in particular at the same circumferential position, are provided, wherein between each two of the connecting elements a camshaft bearing, in particular an undivided bearing shell of the camshaft bearing, is seated directly on the base element.
- the camshaft bearing or its bearing shell therefore do not have a fixing opening like the cam element. Rather, they sit directly and preferably over the entire surface on the base element. This is to be understood that the camshaft bearing or the bearing shell is in touching contact with the base element. In this way, a uniform impression of the bearing forces on the base element or the camshaft bearing is achieved.
- the camshaft bearing or the bearing shell is enclosed in the axial direction of the connecting elements or at least adjacent to a connecting element. It can be provided that the connecting elements and / or arranged on this cam elements with the camshaft bearing come into touching contact, so that it is fixed in the axial direction with respect to the basic element. It is advantageous if the connecting elements are provided at the same circumferential position on the base element. However, the connecting elements may also have different, in particular changing, circumferential positions.
- a development of the invention provides that the camshaft bearing is held stationary by adjacent connecting elements and / or cam elements in the axial direction.
- connecting elements are preferably provided on both sides of the camshaft bearing. These connecting elements serve for the rotationally fixed arrangement of cam elements on the base element.
- the connecting elements or the cam elements should now be arranged with respect to the camshaft bearing so that they keep this stationary in the axial direction, in particular by touch contact.
- the connecting elements and / or the cam elements are thus in the axial direction of the camshaft bearing, that this is immovable in the axial direction.
- the invention further relates to an internal combustion engine with at least one valve gear, in particular according to the preceding embodiments, which has at least one base camshaft on the rotatably and axially displaceable at least one valve actuating cam exhibiting cam carrier is provided, wherein the cam carrier at least partially over a tubular, the base camshaft has receiving base element on which at least one cam element of the cam carrier, in particular the valve actuating cam is arranged. It is provided that between the base member and the cam member at least one torque transmitting connecting element is arranged.
- the valve train can be developed according to the above statements.
- the valve drive can have any desired number of cam carriers which are arranged so as to be axially displaceable on the basic camshaft.
- Each cam carrier preferably has a plurality of cam elements, wherein two of the cam elements may be present as locking elements and another of the cam elements may be in the form of a shift gate.
- the further cam elements are in particular designed as valve actuation cams.
- the invention further relates to a method for producing a valve train, preferably as described above, wherein the following steps are carried out: provision of a basic element, production of at least one holding opening in the base element, insertion of a torque-transmitting connecting element into the holding opening, and pushing on of at least one cam element, in particular a valve actuating cam, via the connecting element.
- the holding opening is preferably formed such that it completely penetrates a wall or a jacket of the base element, which is substantially tubular.
- the valve train is basically designed in accordance with the above explanations.
- the FIG. 1 shows a portion of a valve train 1 of an internal combustion engine, not shown.
- the cam drive 1 consists of a base camshaft 2, not shown here, and a cam carrier 3 which can be displaced axially on it.
- the cam carrier 3 consists of a base element 4, which is essentially tubular and receives the base camshaft 2 at least in some areas.
- the base member 4 has an internal toothing 5, which cooperates with an external toothing of the base camshaft 2 to the cam carrier 3 rotatably, but axially displaceable to keep on the base camshaft 2.
- the cam carrier 3 has a plurality of cam elements 6.
- one of the cam elements 6 is formed as a shift gate 7 and further of the cam elements 6 as a valve actuating cam 8.
- the cam elements 6 present at the end of the cam carrier 3 can simultaneously be present as locking elements 9.
- the shift gate 7 is part of a control device, not shown here, with the aid of which the cam carrier 3 is displaceable on the base camshaft 2 in the axial direction.
- the shift gate 7 has a groove 10 which is at least partially helical and with which an actuator cooperates with the adjusting device.
- the actuator has for this purpose, for example, an extendable driver, which can be brought into engagement with the groove 10 of the shift gate 7. This engagement is dependent on a momentary present axial position of the cam carrier 3 with respect to the base camshaft 2 causes a displacement of the cam carrier 3 in one or the other direction in the axial direction.
- the valve actuating cam 8 serve to actuate gas exchange valves, not shown. For this purpose, for example, they interact with a roller rocker arm of the respective gas exchange valve by contact contact. It can be seen that the valve actuating cam 8 shown here are eccentric, wherein the eccentricities are present at different angular positions or have different extents in the radial direction and / or circumferential direction. Depending on which valve actuation cam 8, the gas exchange valve is actuated, thus adjusts a corresponding stroke, opening time and / or opening duration of the gas exchange valve. By axial displacement of the cam carrier 3, the gas exchange valve of different valve actuating cam 8 can be actuated.
- the cam carrier 3 is displaced as a function of an operating state of the internal combustion engine, so that always that valve actuating cam 8 cooperates with the gas exchange valve for its actuation, with which, for example, an optimal efficiency or optimal performance of the internal combustion engine can be achieved.
- the end of the cam carrier 3 provided locking elements 9 are fixed to the cam carrier 3, that they are held in the axial direction of this.
- the further cam elements 6 are merely attached to the base element 4. They are so far held by means of the locking elements 9 in the axial direction on the cam carrier 3.
- a bearing shell 11 which is part of a camshaft bearing.
- the bearing shell 11 is merely, as well as the cam elements 6, attached to the base member 4 and is held in the axial direction of the respectively adjacent cam elements 6 and the locking elements 9 in the axial direction.
- the bearing shell 11 is preferably in one piece, that is undivided, formed.
- At least one connecting element 12 is arranged between the base member 4 and the cam members 6. This is designed to transmit torque, so it is both non-rotatably connected to the base member and the cam elements 6.
- FIG. 2 shows a side sectional view of a portion of the valve train 1.
- the base camshaft 2 can be seen, on which the cam carrier 3 is arranged rotationally fixed and axially displaceable.
- two cam groups 13 and 14 are provided on the cam carrier 3.
- To the first cam group 13 include the three valve actuating cams 8, which are arranged on the left side of the cam carrier 3, while the cam group 14 belong to the three arranged on the right side valve actuating cam 8.
- the cam elements 6, which are present immediately adjacent to the bearing shell 11, can alternatively also be designed as spacers 15 which space the valve actuation cams 8 of the cam groups 13 and 14 from the bearing shell 11 in the axial direction. In the axial direction, a direction parallel to the longitudinal axis 16 of the basic camshaft 2 is to be understood.
- connecting elements 12 there are two connecting elements 12 spaced apart in the axial direction.
- the connecting elements 12 engage in holding openings 17 of the base element 4.
- the holding openings 17 pass through a shell 18 of the base member 4 in the radial direction completely.
- the holding openings 17 are adapted in shape to the respective connecting element 12 in such a way that it is held positively in the corresponding holding opening 17 both in the circumferential direction and in the axial direction.
- the holding openings 17 thus surround at least a portion of the respective connecting element 12 such that it is fixed in the circumferential direction and in the axial direction.
- On the holding opening 17 opposite side of the connecting element 12 fixing openings 19 of the cam elements 6 are provided.
- the connecting elements 12 also engage in each one.
- the connecting elements 12 thus extend in the radial direction, starting from the holding openings 17 into the fixing openings 19.
- the fixing openings 19 pass completely through the cam elements 6 in the axial direction, so that, in spite of the connecting elements 12, it is possible for the cam elements 6 to slide onto the base element 4.
- the connecting elements 12 thus provide only for a setting of the cam elements 6 relative to the base member 4 in the circumferential direction.
- the connecting elements 12 each consist of a holding portion 20 and a support portion 21.
- the holding portion 20 is substantially completely in the holding opening 17, while the support portion 21 on the jacket 18th or the lateral surface rests and at least partially engages in the respective fixing opening 19.
- the connecting elements 12 are formed for torque transmission between the base member 4 and the cam members 6.
- At least one of the connecting elements 12 also forms a holding device 22 for axial fixing of the cam carrier 3 with respect to the base camshaft 2 with.
- the holding device 22 is formed in the present case as a locking device, wherein in a radial recess 23 of the base camshaft 2, a locking element 24 - which is spherical here - is provided.
- the latching element 24 is urged by a spring element 25 in the direction of the connecting element 12.
- the connecting element 12 has three latching recesses 26 into which the latching element 24 can engage in a latching manner.
- the valve drive 1 shown here is three times adjustable, the cam carrier 3 is therefore in three different axial positions with respect to the base camshaft 2 can be brought. In this way, the cam carrier 3 can be displaced in the axial direction with respect to the base camshaft 2, with each displacement the latching force of the holding device 22 must be overcome.
- FIG. 3 shows a further embodiment of the valve train 1. This corresponds essentially to the basis of the FIG. 2 described, so that reference is made to the above statements. The difference is that the cam carrier 3 shown here is only 2-fold adjustable, so that only two locking recesses 26 are provided on the connecting element 12. In addition, each cam group 13 and 14 associated with only two valve actuation cam 8.
- FIG. 4 clearly shows the internal toothing 5 for producing the rotationally fixed connection with the base camshaft 2 (not shown here) to recognize.
- the holding openings 17 are present, which are slot-like and thereby extend in the axial direction or in this direction have the greater extent.
- FIG. 5 shows the connecting elements 12, wherein it is clear that these consist of the holding portion 20 and the support portion 21. On the right of the connecting elements 12 also the recesses 26 are visible.
- FIG. 6 shows an exploded view of the cam carrier 3 and the elements belonging to this.
- the connecting elements 12 are already on the basic element 4 is arranged.
- the bearing shell 11 is present. By arrangement between the two connecting elements 12, it is fixed in the axial direction with respect to the cam carrier 3.
- four valve actuating cam 8 and the shift gate 7 are shown.
- the mounting of the cam carrier 3 is usually carried out as follows: First, the bearing shell 11 is applied to the base member 4. Subsequently, the connecting elements 12 are arranged on both sides of the bearing shell 11. Subsequently, two of the valve actuating cam 8 are pushed to the left of the bearing shell 11 and two more of the actuating cam 8 right of the bearing shell 11 on the base member 4 that the fixing holes 19 of the valve actuating cam 8, a portion of the connecting elements 12, in particular their support portion 21 engage around. On the right of the bearing shell 11, the shift gate 7 is then likewise applied to the base element 4 in such a way that its fixing opening 19 cooperates with the connecting element 12.
- FIG. 7 shows the cam carrier 3 after installation.
- the individual elements correspond to those based on the FIG. 6 described, so that reference is made to the above statements.
- valve drive 1 or the cam carrier 3 described above, a modular construction is achieved, which promises a simple and cost-effective production of the cam carrier 3.
Description
Die Erfindung betrifft einen Ventiltrieb einer Brennkraftmaschine, mit wenigstens einer Grundnockenwelle, auf der drehfest und axial verschiebbar ein wenigstens einen Ventilbetätigungsnocken aufweisender Nockenträger vorgesehen ist, wobei der Nockenträger über ein rohrförmiges, die Grundnockenwelle wenigstens bereichsweise aufnehmendes Grundelement verfügt, auf dem zumindest ein Nockenelement des Nockenträgers, insbesondere der Ventilbetätigungsnocken, angeordnet ist. Die Erfindung betrifft weiterhin eine Brennkraftmaschine sowie ein Verfahren zur Herstellung eines Ventiltriebs.The invention relates to a valve train of an internal combustion engine, with at least one base camshaft, on the rotatably and axially displaceable at least one Ventilbetätigungsnocken exhibiting cam carrier is provided, wherein the cam carrier has a tubular, the base camshaft at least partially receiving basic element on which at least one cam element of the cam carrier , in particular the valve actuating cam, is arranged. The invention further relates to an internal combustion engine and to a method for producing a valve drive.
Ventiltriebe der eingangs genannten Art sind aus dem Stand der Technik bekannt. Sie werden für Brennkraftmaschinen eingesetzt, bei welchen das Arbeitsspiel von Gaswechselventilen einzelner Zylinder der Brennkraftmaschine zur Verbesserung der thermodynamischen Eigenschaft beeinflusst werden kann. Der mindestens eine Nockenträger, welcher auch als Nockenstück bezeichnet werden kann, ist drehfest und axial verschiebbar auf der Grundnockenwelle angeordnet. Die Verschiebung des Nockenträgers in axialer Richtung erfolgt mit Hilfe einer Stelleinrichtung, die eine Schaltkulisse auf dem Nockenträger und einen ortsfest angeordneten Aktuator, üblicherweise in einem Zylinderkopf der Brennkraftmaschine, umfasst. Der Aktuator verfügt über einen ausfahrbaren Mitnehmer, der sich mit einer schrauben- beziehungsweise spiralförmigen Nut der Schaltkulisse in Eingriff bringen lässt. Dem Nockenträger ist der wenigstens eine Ventilbetätigungsnocken zugeordnet. Dieser weist eine Exzentrizität auf, welche der Betätigung eines Gaswechselventils der Brennkraftmaschine bei einem bestimmten Drehwinkel der Grundnockenwelle dient. Der Ventilbetätigungsnocken läuft demnach gemeinsam mit der Grundnockenwelle um, sodass das Gaswechselventil der Brennkraftmaschine zumindest einmal pro Umdrehung von dem Ventilbetätigungsnocken beziehungsweise dessen Exzentrizität betätigt wird. Der Ventilbetätigungsnocken wirkt dazu vorzugsweise mit einem Rollenschlepphebel des Gaswechselventils zusammen, indem er mit diesem in Anlagekontakt tritt.Valve trains of the type mentioned are known from the prior art. They are used for internal combustion engines, in which the cycle of gas exchange valves of individual cylinders of the internal combustion engine can be influenced to improve the thermodynamic property. The at least one cam carrier, which may also be referred to as a cam piece, is arranged rotationally fixed and axially displaceable on the base camshaft. The displacement of the cam carrier in the axial direction takes place with the aid of an adjusting device, which comprises a shift gate on the cam carrier and a stationarily arranged actuator, usually in a cylinder head of the internal combustion engine. The actuator has an extendable driver, which can be engaged with a helical or spiral groove of the shift gate. The cam carrier is associated with the at least one valve actuating cam. This has an eccentricity, which serves to actuate a gas exchange valve of the internal combustion engine at a certain angle of rotation of the basic camshaft. Accordingly, the valve actuating cam rotates together with the basic camshaft so that the gas exchange valve of the internal combustion engine is actuated by the valve actuating cam or its eccentricity at least once per revolution. The valve actuating cam cooperates preferably with a roller rocker arm of the gas exchange valve by coming into abutting contact with this.
Vorzugsweise sind mehrere Ventilbetätigungsnocken vorgesehen, welche unterschiedlichen Nockengruppen zugeordnet sein können. Die Ventilbetätigungsnocken können sich nun in der Winkellage, der Erstreckung in radialer Richtung und/oder in Umfangsrichtung ihrer Exzentrizität unterscheiden. Durch das axiale Verschieben des Nockenträgers kann dieser in wenigstens zwei, beispielsweise in eine erste und eine zweite Stellposition gebracht werden. In der ersten Stellposition wird das Gaswechselventil von einem ersten der Ventilbetätigungsnocken und in der zweiten Stellposition von einem zweiten der Ventilbetätigungsnocken betätigt, welche derselben Nockengruppe zugeordnet sind. Durch die Verlagerung des Nockenträgers können somit insbesondere der Öffnungszeitpunkt, die Öffnungsdauer und/oder der Hub des Gaswechselventils, insbesondere in Abhängigkeit von einem Betriebszustand der Brennkraftmaschine, auswählen.Preferably, a plurality of valve actuation cams are provided, which may be assigned to different cam groups. The valve actuation cams can become now differ in the angular position, the extent in the radial direction and / or in the circumferential direction of their eccentricity. By the axial displacement of the cam carrier it can be brought into at least two, for example in a first and a second setting position. In the first setting position, the gas exchange valve is actuated by a first of the valve actuation cams and in the second actuation position by a second one of the valve actuation cams associated with the same cam group. By the displacement of the cam carrier can thus in particular the opening time, the opening duration and / or the stroke of the gas exchange valve, in particular as a function of an operating condition of the internal combustion engine, select.
Aus dem Stand der Technik bekannte Nockenträger sind einstückig ausgebildet und werden aus einem metallischen Vollmaterial gefertigt, das verschiedenen Fertigungsschritten unterzogen wird. Die Fertigungsschritte umfassen beispielsweise ein Räumen einer Innenverzahnung des Nockenträgers, ein Schleifen oder Abdrehen von zylindrischen, zur Drehlagerung dienenden Abschnitten des Nockenträgers, eine Elektronenstrahlhärtung einer Oberfläche des Ventilbetätigungsnocken, sowie eine Gasnitrierung von Oberflächen im Bereich der Schaltkulisse. Diese Fertigungsschritte verursachen einen nicht unbeträchtlichen Aufwand und damit Kosten. Außerdem sind zur Lagerung der bekannten Nockenträger im Zylinderkopf der Brennkraftmaschine geteilte Lager mit zwei Lagerschalen beziehungsweise Lagerschalenhälften erforderlich, was einerseits einen zusätzlichen Fertigungs- und Montageaufwand und andererseits erhöhte Reibungsverluste im Falle einer unvollkommenen Paarung der beiden Lagerschalen oder Lagerschalenhälften verursacht.Known in the prior art cam carrier are integrally formed and are made of a solid metal material, which is subjected to various manufacturing steps. The manufacturing steps include, for example, clearing internal teeth of the cam carrier, grinding or twisting cylindrical portions for pivotal support of the cam carrier, electron beam hardening of a surface of the valve operating cam, and gas nitriding of surfaces in the region of the shift gate. These manufacturing steps cause a not inconsiderable expense and thus costs. In addition, for storage of the known cam carrier in the cylinder head of the engine split bearings with two bearing shells or bearing shell halves are required, which on the one hand causes additional manufacturing and assembly costs and on the other hand increased friction losses in the case of an imperfect pairing of the two bearing shells or bearing shell halves.
Um den Fertigungsaufwand zu verringern, kann der Nockenträger modular aufgebaut sein und zu diesem Zweck aus dem Grundelement und dem wenigstens einen Nockenelement bestehen. Das Grundelement ist im Wesentlichen rohrförmig und nimmt die Grundnockenwelle wenigstens bereichsweise auf. Dazu umgreift es die Grundnockenwelle in Umfangsrichtung wenigstens bereichsweise, vorzugsweise vollständig. Das Grundelement weist bevorzugt eine Innenverzahnung auf, welche in eine Außenverzahnung der Grundnockenwelle zum drehfesten Halten des Grundelements an der Grundnockenwelle eingreift. Das Grundelement kann komplett mit Innenverzahnung als Profil gezogen werden und ist so einfach und kostengünstig herstellbar. Auf dem Grundelement wird das wenigstens eine Nockenelement angeordnet. Das Nockenelement ist insbesondere als Nockenscheibe ausgebildet. Beispielsweise liegt der Ventilbetätigungsnocken als Nockenelement vor. Das Nockenelement kann alternativ jedoch auch ein anderes Element, beispielsweise die Schaltkulisse, ein Abstandshalter oder ein Arretierelement sein. Das Nockenelement besteht bevorzugt aus Wälzlagerstahl, welches (fein)gestanzt und geschliffen beziehungsweise auf seiner Innenseite geräumt wird. Gleiche beziehungsweise gleichartige Nockenelemente können gemeinsam geschliffen beziehungsweise geräumt werden, was eine effiziente und kostengünstige Herstellung erlaubt.In order to reduce the production costs, the cam carrier may be of modular design and for this purpose consist of the base element and the at least one cam element. The base member is substantially tubular and receives the base camshaft at least partially. For this purpose it surrounds the base camshaft in the circumferential direction at least partially, preferably completely. The base member preferably has an internal toothing, which engages in an external toothing of the base camshaft for rotationally fixed holding the base member to the base camshaft. The basic element can be pulled completely with internal toothing as a profile and is so easy and inexpensive to produce. On the base element, the at least one cam element is arranged. The cam element is designed in particular as a cam disk. For example, the valve actuating cam is present as a cam element. However, the cam member may alternatively be another element, such as the shift gate, a spacer or a Be locking. The cam member is preferably made of bearing steel, which (fine) punched and ground or cleared on its inside. The same or similar cam elements can be ground or cleared together, which allows an efficient and cost-effective production.
Beispielsweise ist aus der
Weiterhin ist aus dem Stand der Technik die Druckschrift
Es ist Aufgabe der Erfindung, einen Ventiltrieb einer Brennkraftmaschine vorzuschlagen, welcher die eingangs genannten Nachteile nicht aufweist, sondern insbesondere einfach und kostengünstig herstellbar ist und gleichzeitig eine gute Dauerbetriebsfestigkeit aufweist.It is an object of the invention to propose a valve train of an internal combustion engine, which does not have the disadvantages mentioned above, but in particular is simple and inexpensive to produce and at the same time has a good continuous operating strength.
Dies wird erfindungsgemäß mit einem Ventiltrieb mit den Merkmalen des Anspruchs 1 erreicht. Dabei ist vorgesehen, dass zwischen dem Grundelement und dem Nockenelement wenigstens ein Drehmoment übertragendes Verbindungselement angeordnet ist. Es ist also gerade nicht, wie aus dem Stand der Technik bekannt, vorgesehen, dass der Nockenträger um das Nockenelement gespritzt ist, wodurch eine Befestigung des Nockenelements an diesem erreicht wird. Vielmehr soll zwischen dem Grundelement und dem auf diesem angeordneten Nockenelement das Verbindungselement vorliegen, welches das Nockenelement zumindest in Umfangsrichtung gegenüber dem Grundelement festsetzt und damit eine zuverlässige Drehmomentübertragung von dem Grundelement auf das Nockenelement gewährleistet. Das Verbindungselement ist dabei bevorzugt ein Sinterelement, welches gehärtet beziehungsweise durchgehärtet ist. Der erfindungsgemäße Ventiltrieb hat den Vorteil, dass er modular aufgebaut ist, sodass seine einzelnen Bestandteile, also Grundnockenwelle und Nockenträger beziehungsweise Grundelement sowie Nockenelement aus einem entsprechend der jeweiligen Belastung gewählten Material bestehen können. Bei der Herstellung können zudem materialspezifische Fertigungsverfahren gewählt werden. Für jedes der Elemente des Ventiltriebs kann somit das jeweils vorteilhafteste Material zum Einsatz kommen. Der modulare Charakter des Ventiltriebs kommt insbesondere bei einer Ausführungsform zum Tragen, bei welcher das Nockenelement auf das Grundelement aufsteckbar ist.This is achieved according to the invention with a valve train having the features of
Eine Weiterbildung der Erfindung sieht vor, dass das Verbindungselement wenigstens bereichsweise in eine Halteöffnung des Grundelements eingreift und zumindest in Umfangsrichtung, insbesondere zusätzlich in axialer Richtung, formschlüssig in dieser gehalten ist. Das Grundelement weist demnach die Halteöffnung auf. Diese liegt bevorzugt in einem Mantel beziehungsweise einer Mantelfläche des rohrförmigen Grundelements vor beziehungsweise durchgreift diese. Das Verbindungselement greift nun wenigstens bereichsweise in die Halteöffnung ein, wobei das Verbindungselement und die Halteöffnung derart formangepasst sind, dass zumindest ein formschlüssiges Halten des Verbindungselements in Umfangsrichtung realisiert ist. Die Halteöffnung ist bevorzugt als sich in axialer Richtung erstreckendes Langloch ausgebildet. Vorzugsweise ist das Verbindungselement auch in axialer Richtung formschlüssig in der Halteöffnung ortsfest gehalten. Es kann jedoch auch vorgesehen sein, dass die Halteöffnung eine Verlagerung des Verbindungselements in axialer Richtung in gewissem Umfang zulässt. Insbesondere ist es vorgesehen, dass lediglich ein Haltebereich des Verbindungselements in der Halteöffnung angeordnet ist, während ein Stützbereich des Verbindungselements auf einer Wandung des Grundelements, insbesondere dessen Mantel beziehungsweise Mantelfläche, aufliegt und in radialer Richtung über das Grundelement übersteht. Zumindest der Stützbereich kann dabei im Wesentlichen quaderförmig ausgebildet sein. Insbesondere ist die dem Grundelement zugewandte Seite des Stützbereichs an das Grundelement formangepasst, so dass es im Wesentlichen flächig an diesem anliegt. Durch das Zusammenwirken der Halteöffnung und des Verbindungselements ist letzteres bezüglich einer Drehachse der Grundnockenwelle drehfest an dem Grundelement festgesetzt.A development of the invention provides that the connecting element at least partially engages in a holding opening of the base member and is held in this at least in the circumferential direction, in particular additionally in the axial direction, in a form-fitting manner. The basic element therefore has the holding opening. This is preferably in a jacket or a lateral surface of the tubular base member or passes through this. The connecting element now engages at least partially in the holding opening, wherein the connecting element and the holding opening are adapted in shape such that at least one positive holding of the connecting element in the circumferential direction is realized. The holding opening is preferably designed as a slot extending in the axial direction. Preferably, the connecting element is held in a form-fitting manner in the retaining opening in the axial direction. However, it can also be provided that the holding opening allows a displacement of the connecting element in the axial direction to some extent. In particular, it is provided that only one holding region of the connecting element is arranged in the holding opening, while a support region of the connecting element rests on a wall of the base element, in particular its jacket or lateral surface, and projects in the radial direction over the base element. At least the support region may be formed substantially cuboid. In particular, the side of the support region facing the base element is adapted in shape to the base element, so that it rests substantially flat against the base element. Due to the interaction of the holding opening and the connecting element is the latter with respect a rotational axis of the base camshaft rotationally fixed to the base element.
Eine Weiterbildung der Erfindung sieht vor, dass das Verbindungselement wenigstens bereichsweise in eine Fixieröffnung des Nockenelements eingreift und in dieser in Umfangsrichtung ortsfest, insbesondere in axialer Richtung beweglich, gelagert ist. Die Fixieröffnung ist demnach ebenso wie die Halteöffnung des Grundelements derart an das Verbindungselement formangepasst, dass ein formschlüssiges Halten des Nockenelements in Umfangsrichtung realisiert ist. Über das Verbindungselement ist demnach das Nockenelement drehfest mit dem Grundelement verbunden. Dabei kann es vorgesehen sein, dass das Nockenelement trotz der in Umfangsrichtung ortsfesten Lagerung in axialer Richtung beweglich ist. Dies wird insbesondere erreicht, indem die Fixieröffnung das Nockenelement in axialer Richtung vollständig durchgreift. Auf diese Weise wird ein Aufstecken des Nockenelements bei einer Montage des Ventiltriebs möglich. Das Nockenelement ist insoweit auf den Nockenträger aufschiebbar. Wie vorstehend bereits erläutert, besteht das Verbindungselement vorteilhafterweise aus dem Haltebereich und einem Stützbereich. Während der Haltebereich in die Halteöffnung des Grundelements eingreift, soll der Stützbereich wenigstens teilweise in die Fixieröffnung des Nockenelements eingreifen. Das Verbindungselement greift somit in radialer Richtung sowohl in das Grundelement als auch das Nockenelement ein.A development of the invention provides that the connecting element at least partially engages in a fixing opening of the cam member and in this fixed in the circumferential direction, in particular in the axial direction, is mounted. Accordingly, the fixing opening, as well as the holding opening of the basic element, is adapted in shape to the connecting element in such a way that a form-locking holding of the cam element in the circumferential direction is realized. Accordingly, the cam member is rotatably connected to the base member via the connecting element. It can be provided that the cam member is movable in the axial direction despite the stationary in the circumferential direction bearing. This is achieved in particular by the fixing opening completely penetrating the cam element in the axial direction. In this way, an attachment of the cam member is possible in an assembly of the valve train. The cam element is so far pushed onto the cam carrier. As already explained above, the connecting element advantageously consists of the holding area and a support area. While the holding area engages in the holding opening of the base element, the support area should at least partially engage in the fixing opening of the cam element. The connecting element thus engages in the radial direction both in the base element and the cam member.
Eine Weiterbildung der Erfindung sieht vor, dass mehrere Nockenelemente vorgesehen sind, welche durch Berührkontakt mit benachbarten Nockenelementen in axialer Richtung festgesetzt sind. Es ist also nicht vorgesehen, dass die einzelnen Nockenelemente mittels separater Befestigungsmittel in axialer Richtung an dem Grundelement befestigt sind. Vielmehr sollen sie derart zueinander angeordnet sein, dass sie in axialer Richtung unverlagerbar sind. Endseitig des Nockenträgers beziehungsweise des Grundelements angeordnete Nockenelemente sind zu diesem Zweck beispielsweise als Arretierelemente ausgebildet. Die Arretierelemente sind in axialer Richtung bezüglich des Grundelements ortsfest gehalten, womit auch die weiteren Nockenelemente in axialer Richtung festgesetzt sind. Das Arretierelement ist beispielsweise ein gehärtetes Sinterelement.A development of the invention provides that a plurality of cam elements are provided, which are fixed by contact contact with adjacent cam elements in the axial direction. It is therefore not intended that the individual cam elements are fastened by means of separate fastening means in the axial direction of the base member. Rather, they should be arranged to each other such that they are non-displaceable in the axial direction. For this purpose, cam elements arranged on the end side of the cam carrier or the basic element are designed as locking elements, for example. The locking elements are held stationary in the axial direction with respect to the base element, whereby the other cam elements are fixed in the axial direction. The locking element is for example a hardened sintered element.
Eine Weiterbildung der Erfindung sieht vor, dass - in Umfangsrichtung gesehen - das Grundelement nur eine einzige Halteöffnung und/oder das Nockenelement nur eine einzige Fixieröffnung aufweisen. In Umfangsrichtung sind also nicht mehrere Halteöffnungen beziehungsweise mehrere Fixieröffnungen nebeneinander angeordnet. Liegen mehrere Halteöffnungen beziehungsweise Fixieröffnungen vor, so sind diese in axialer Richtung versetzt und bevorzugt voneinander beabstandet. Alternativ können selbstverständlich auch in Umfangsrichtung mehrere Halteöffnungen beziehungsweise Fixieröffnungen - jeweils mit darin angeordnetem Verbindungselement - vorgesehen sein. Vorzugsweise sind die Halteöffnungen und Fixieröffnungen in diesem Fall gleichmäßig über den Umfang des Grundelements beziehungsweise des Nockenelements verteilt. Insbesondere liegen jeweils zwei der Halte- beziehungsweise Fixieröffnungen einander diametral gegenüber.A development of the invention provides that - viewed in the circumferential direction - the base element only a single holding opening and / or the cam member have only a single fixing opening. In the circumferential direction, therefore, not more holding openings or a plurality of fixing openings are arranged side by side. Lies several Holding openings or fixing openings, they are offset in the axial direction and preferably spaced from each other. Alternatively, it is of course also possible to provide a plurality of holding openings or fixing openings in the circumferential direction, each with a connecting element arranged therein. In this case, the holding openings and fixing openings are preferably distributed uniformly over the circumference of the basic element or of the cam element. In particular, two of the holding or fixing openings are diametrically opposite each other.
Eine Weiterbildung der Erfindung sieht vor, dass das Verbindungselement eine Haltevorrichtung zur axialen Festsetzung des Nockenträgers bezüglich der Grundnockenwelle zumindest mit ausbildet, insbesondere indem die Halteöffnung eine Wandung des Grundelements in radialer Richtung vollständig durchgreift. Die Haltevorrichtung dient dem Halten des Nockenträgers in axialer Richtung bezüglich der Grundnockenwelle. Die Axialfestsetzung muss dabei jedoch nicht permanent vorliegen. Beispielsweise kann es vorgesehen sein, dass die Haltevorrichtung eine axiale Verlagerung zwischen mindestens zwei Axialpositionen zulässt. Dabei kann die Haltevorrichtung insbesondere derart ausgebildet sein, dass zum Verlassen einer der Axialpositionen eine ausreichend große Kraft in axialer Richtung auf den Nockenträger aufgebracht werden muss. Erst bei Aufbringen dieser Kraft wird der Nockenträger aus seiner momentanen Axialposition herausverlagert und nimmt die benachbarte Axialposition ein. Prinzipiell kann eine beliebige Anzahl derartiger Axialpositionen vorgesehen sein. Übliche Ausgestaltungen des Ventiltriebs weisen jedoch lediglich zwei oder drei Axialpositionen auf.A development of the invention provides that the connecting element forms a holding device for axially fixing the cam carrier with respect to the base camshaft at least with, in particular by the holding opening completely engages through a wall of the base member in the radial direction. The holding device serves to hold the cam carrier in the axial direction with respect to the base camshaft. However, the axial fixing need not be permanent. For example, it can be provided that the holding device allows an axial displacement between at least two axial positions. In this case, the holding device may in particular be designed such that for leaving one of the axial positions a sufficiently large force in the axial direction must be applied to the cam carrier. Only when applying this force of the cam carrier is moved out of its current axial position and takes the adjacent axial position. In principle, any number of such axial positions can be provided. However, conventional designs of the valve train have only two or three axial positions.
Die Haltevorrichtung kann insbesondere als Rastvorrichtung ausgebildet sein, wobei in einer Radialausnehmung der Grundnockenwelle ein Rastelement vorgesehen ist. Das Rastelement kann beispielsweise elastisch oder von einem Federelement federkraftbeaufschlagt sein, sodass es in Richtung des Verbindungselements gedrängt wird. Das Verbindungselement weist wenigstens eine Rastausnehmung auf, in welche das Rastelement rastend eingreifen kann. Dabei ist eine der Anzahl der gewünschten Axialpositionen des Nockenträgers entsprechende Anzahl Rastausnehmungen vorgesehen, die in axialer Richtung voneinander beabstandet an dem Verbindungselement vorliegen. Somit kann der Nockenträger in axialer Richtung bezüglich der Grundnockenwelle verlagert werden, wobei bei einer solchen Verlagerung jedes Mal die Rastkraft der Rastvorrichtung überwunden werden muss. Wird keine Kraft aufgebracht beziehungsweise ist die aufgebrachte Kraft kleiner als die Rastkraft der Rastvorrichtung, so verbleibt der Nockenträger in seiner momentanen Axialposition und ist in dieser zuverlässig gehalten. Zu diesem Zweck ist es vorzugsweise vorgesehen, dass die Halteöffnung die Wandung des Grundelements in radialer Richtung vollständig durchgreift, sodass das Rastelement durch die Halteöffnung hindurch in Rastverbindung mit dem Verbindungselement treten kann.The holding device may in particular be designed as a latching device, wherein a latching element is provided in a radial recess of the base camshaft. The latching element may, for example, be resilient or spring-loaded by a spring element, so that it is urged in the direction of the connecting element. The connecting element has at least one latching recess into which the latching element can engage in a latching manner. In this case, one of the number of desired axial positions of the cam carrier corresponding number of latching recesses is provided, which are spaced from each other in the axial direction of the connecting element. Thus, the cam carrier can be displaced in the axial direction with respect to the base camshaft, wherein in such a shift each time the locking force of the locking device must be overcome. If no force is applied or if the applied force is less than the latching force of the latching device, then the cam carrier remains in its current axial position and is held reliably in this. To this Purpose, it is preferably provided that the retaining opening completely penetrates the wall of the base member in the radial direction, so that the locking element can pass through the retaining opening into latching connection with the connecting element.
Eine Weiterbildung der Erfindung sieht vor, dass mehrere Verbindungselemente in axialer Richtung beabstandet zueinander, insbesondere an derselben Umfangsposition, vorgesehen sind, wobei zwischen jeweils zwei der Verbindungselemente ein Nockenwellenlager, insbesondere eine ungeteilte Lagerschale des Nockenwellenlagers, unmittelbar auf dem Grundelement aufsitzt. Das Nockenwellenlager beziehungsweise dessen Lagerschale weisen also nicht wie das Nockenelement eine Fixieröffnung auf. Vielmehr sitzen sie unmittelbar und vorzugsweise vollflächig auf dem Grundelement auf. Darunter ist zu verstehen, dass das Nockenwellenlager beziehungsweise die Lagerschale in Berührkontakt zu dem Grundelement steht. Auf diese Weise wird eine gleichmäßige Aufprägung der Lagerkräfte auf das Grundelement beziehungsweise das Nockenwellenlager erreicht. Das Nockenwellenlager beziehungsweise die Lagerschale ist in axialer Richtung von den Verbindungselementen eingefasst oder zumindest zu einem Verbindungselement benachbart angeordnet. Dabei kann es vorgesehen sein, dass die Verbindungselemente und/oder die auf diesem angeordnete Nockenelemente mit dem Nockenwellenlager in Berührkontakt treten, sodass dieses in axialer Richtung bezüglich des Grundelements festgelegt ist. Von Vorteil ist es dabei, wenn die Verbindungselemente an derselben Umfangsposition an dem Grundelement vorgesehen sind. Die Verbindungselemente können jedoch auch verschiedene, insbesondere wechselnde, Umfangspositionen aufweisen.A development of the invention provides that a plurality of connecting elements spaced apart in the axial direction, in particular at the same circumferential position, are provided, wherein between each two of the connecting elements a camshaft bearing, in particular an undivided bearing shell of the camshaft bearing, is seated directly on the base element. The camshaft bearing or its bearing shell therefore do not have a fixing opening like the cam element. Rather, they sit directly and preferably over the entire surface on the base element. This is to be understood that the camshaft bearing or the bearing shell is in touching contact with the base element. In this way, a uniform impression of the bearing forces on the base element or the camshaft bearing is achieved. The camshaft bearing or the bearing shell is enclosed in the axial direction of the connecting elements or at least adjacent to a connecting element. It can be provided that the connecting elements and / or arranged on this cam elements with the camshaft bearing come into touching contact, so that it is fixed in the axial direction with respect to the basic element. It is advantageous if the connecting elements are provided at the same circumferential position on the base element. However, the connecting elements may also have different, in particular changing, circumferential positions.
Eine Weiterbildung der Erfindung sieht vor, dass das Nockenwellenlager von benachbarten Verbindungselementen und/oder Nockenelementen in axialer Richtung ortsfest gehalten ist. Wie bereits vorstehend ausgeführt, sind vorzugsweise beidseitig des Nockenwellenlagers Verbindungselemente vorgesehen. Diese Verbindungselemente dienen der drehfesten Anordnung von Nockenelementen auf dem Grundelement. Die Verbindungselemente beziehungsweise die Nockenelemente sollen nun derart bezüglich des Nockenwellenlagers angeordnet sein, dass sie dieses in axialer Richtung ortsfest halten, insbesondere durch Berührkontakt. Die Verbindungselemente und/oder die Nockenelemente liegen also in axialer Richtung derart an dem Nockenwellenlager an, dass dieses in axialer Richtung unverschieblich ist.A development of the invention provides that the camshaft bearing is held stationary by adjacent connecting elements and / or cam elements in the axial direction. As already stated above, connecting elements are preferably provided on both sides of the camshaft bearing. These connecting elements serve for the rotationally fixed arrangement of cam elements on the base element. The connecting elements or the cam elements should now be arranged with respect to the camshaft bearing so that they keep this stationary in the axial direction, in particular by touch contact. The connecting elements and / or the cam elements are thus in the axial direction of the camshaft bearing, that this is immovable in the axial direction.
Die Erfindung betrifft weiterhin eine Brennkraftmaschine mit wenigstens einem Ventiltrieb, insbesondere gemäß den vorstehenden Ausführungen, der über wenigstens eine Grundnockenwelle verfügt, auf der drehfest und axial verschiebbar ein wenigstens ein Ventilbetätigungsnocken aufweisender Nockenträger vorgesehen ist, wobei der Nockenträger über ein rohrförmiges, die Grundnockenwelle wenigstens bereichsweise aufnehmendes Grundelement verfügt, auf dem zumindest ein Nockenelement des Nockenträgers, insbesondere der Ventilbetätigungsnocken, angeordnet ist. Dabei ist vorgesehen, dass zwischen dem Grundelement und dem Nockenelement wenigstens ein Drehmoment übertragendes Verbindungselement angeordnet ist. Der Ventiltrieb kann gemäß den vorstehenden Ausführungen weitergebildet sein. Grundsätzlich sei noch einmal hervorgehoben, dass der Ventiltrieb über eine beliebige Anzahl von Nockenträgern verfügen kann, welche axial verschiebbar auf der Grundnockenwelle angeordnet sind. Jeder Nockenträger verfügt dabei vorzugsweise über eine Vielzahl an Nockenelementen, wobei zwei der Nockenelemente als Arretierelemente und ein weiteres der Nockenelemente als Schaltkulisse vorliegen können. Die weiteren Nockenelemente sind insbesondere als Ventilbetätigungsnocken ausgebildet.The invention further relates to an internal combustion engine with at least one valve gear, in particular according to the preceding embodiments, which has at least one base camshaft on the rotatably and axially displaceable at least one valve actuating cam exhibiting cam carrier is provided, wherein the cam carrier at least partially over a tubular, the base camshaft has receiving base element on which at least one cam element of the cam carrier, in particular the valve actuating cam is arranged. It is provided that between the base member and the cam member at least one torque transmitting connecting element is arranged. The valve train can be developed according to the above statements. In principle, it should again be emphasized that the valve drive can have any desired number of cam carriers which are arranged so as to be axially displaceable on the basic camshaft. Each cam carrier preferably has a plurality of cam elements, wherein two of the cam elements may be present as locking elements and another of the cam elements may be in the form of a shift gate. The further cam elements are in particular designed as valve actuation cams.
Die Erfindung betrifft weiterhin ein Verfahren zur Herstellung eines Ventiltriebs, vorzugsweise gemäß den vorstehenden Ausführungen, wobei folgende Schritte durchgeführt werden: Bereitstellen eines Grundelements, Herstellen wenigstens einer Halteöffnung in dem Grundelement, Einlegen eines Drehmoment übertragenden Verbindungselements in die Halteöffnung, und Aufschieben wenigstens eines Nockenelements, insbesondere eines Ventilbetätigungsnockens, über das Verbindungselement. Die Halteöffnung wird dabei bevorzugt derart ausgebildet, dass sie eine Wandung beziehungsweise einen Mantel des Grundelements, welches im Wesentlichen rohrförmig ist, vollständig durchgreift. Der Ventiltrieb ist grundsätzlich gemäß den vorstehenden Ausführungen ausgebildet.The invention further relates to a method for producing a valve train, preferably as described above, wherein the following steps are carried out: provision of a basic element, production of at least one holding opening in the base element, insertion of a torque-transmitting connecting element into the holding opening, and pushing on of at least one cam element, in particular a valve actuating cam, via the connecting element. The holding opening is preferably formed such that it completely penetrates a wall or a jacket of the base element, which is substantially tubular. The valve train is basically designed in accordance with the above explanations.
Die Erfindung wird nachfolgend anhand der in der Zeichnung dargestellten Ausführungsbeispiele näher erläutert, ohne dass eine Beschränkung der Erfindung erfolgt. Dabei zeigen:
Figur 1- eine Darstellung eines Bereichs eines Ventiltriebs einer Brennkraftmaschine, wobei ein Nockenträger gezeigt ist, welcher aus einem Grundelement besteht, auf dem zumindest ein Nockenelement des Nockenträgers angeordnet ist,
Figur 2- eine Seitenschnittansicht eines Bereichs des Ventiltriebs in einer ersten Ausführungsform,
Figur 3- eine Seitenschnittansicht des Ventiltriebs in einer zweiten Ausführungsform,
Figur 4- das Grundelement des Nockenträgers,
Figur 5- zwei Verbindungselemente, welche in eine Halteöffnung des Grundelements einbringbar sind,
- Figur 6
- eine Explosionsdarstellung eines Bereichs des Ventiltriebs, wobei das Grundelement, die Verbindungselemente, mehrere Nockenelemente und ein Nockenwellenlager dargestellt sind, und
- Figur 7
- der aus der
Figur 6 bekannte Bereich des Ventiltriebs in fertig montiertem Zustand.
- FIG. 1
- 1 a representation of a region of a valve train of an internal combustion engine, showing a cam carrier which consists of a base element on which at least one cam element of the cam carrier is arranged,
- FIG. 2
- FIG. 2 is a side sectional view of a portion of the valvetrain in a first embodiment; FIG.
- FIG. 3
- a side sectional view of the valve train in a second embodiment,
- FIG. 4
- the basic element of the cam carrier,
- FIG. 5
- two connecting elements, which can be introduced into a holding opening of the basic element,
- FIG. 6
- an exploded view of a portion of the valve train, wherein the base member, the connecting elements, a plurality of cam elements and a camshaft bearing are shown, and
- FIG. 7
- the one from the
FIG. 6 known area of the valve train in the assembled state.
Die
Die Schaltkulisse 7 ist Bestandteil einer hier nicht näher dargestellten Stelleinrichtung, mit deren Hilfe der Nockenträger 3 auf der Grundnockenwelle 2 in axialer Richtung verlagerbar ist. Zu diesem Zweck weist die Schaltkulisse 7 eine Nut 10 auf, welche wenigstens bereichsweise schraubenförmig ausgebildet ist und mit welcher ein Aktuator mit der Stelleinrichtung zusammenwirkt. Der Aktuator verfügt zu diesem Zweck beispielsweise über einen ausfahrbaren Mitnehmer, der sich mit der Nut 10 der Schaltkulisse 7 in Eingriff bringen lässt. Durch dieses Ineingriffbringen wird in Abhängigkeit von einer momentan vorliegenden Axialposition des Nockenträgers 3 bezüglich der Grundnockenwelle 2 eine Verlagerung des Nockenträgers 3 in die eine oder die andere Richtung in axialer Richtung bewirkt.The shift gate 7 is part of a control device, not shown here, with the aid of which the
Die Ventilbetätigungsnocken 8 dienen der Betätigung von nicht dargestellten Gaswechselventilen. Zu diesem Zweck wirken sie beispielsweise mit einem Rollenschlepphebel des jeweiligen Gaswechselventils durch Anlagekontakt zusammen. Es ist erkennbar, dass die hier dargestellten Ventilbetätigungsnocken 8 exzentrisch sind, wobei die Exzentrizitäten an unterschiedlichen Winkelpositionen vorliegen beziehungsweise unterschiedliche Erstreckungen in Radialrichtung und/oder Umfangsrichtung aufweisen. Je nachdem, mit welchen Ventilbetätigungsnocken 8 das Gaswechselventil betätigt wird, stellt sich somit ein entsprechender Hub, Öffnungszeitpunkt und/oder Öffnungsdauer des Gaswechselventils ein. Durch axiale Verlagerung des Nockenträgers 3 kann das Gaswechselventil von unterschiedlichen Ventilbetätigungsnocken 8 betätigbar sein. Beispielsweise wird der Nockenträger 3 in Abhängigkeit von einem Betriebszustand der Brennkraftmaschine verlagert, sodass stets derjenige Ventilbetätigungsnocken 8 mit dem Gaswechselventil zu dessen Betätigung zusammenwirkt, mit welchem beispielsweise ein optimaler Wirkungsgrad beziehungsweise eine optimale Leistung der Brennkraftmaschine erzielbar ist.The valve actuating cam 8 serve to actuate gas exchange valves, not shown. For this purpose, for example, they interact with a roller rocker arm of the respective gas exchange valve by contact contact. It can be seen that the valve actuating cam 8 shown here are eccentric, wherein the eccentricities are present at different angular positions or have different extents in the radial direction and / or circumferential direction. Depending on which valve actuation cam 8, the gas exchange valve is actuated, thus adjusts a corresponding stroke, opening time and / or opening duration of the gas exchange valve. By axial displacement of the
Die endseitig des Nockenträgers 3 vorgesehenen Arretierelemente 9 sind derart an dem Nockenträger 3 befestigt, dass sie in axialer Richtung an diesem gehalten sind. Bevorzugt sind die weiteren Nockenelemente 6 lediglich auf das Grundelement 4 aufgesteckt. Sie werden insoweit mittels der Arretierelemente 9 in axialer Richtung auf dem Nockenträger 3 gehalten. Zwischen zwei der Nockenelemente 6 liegt eine Lagerschale 11 vor, welche Bestandteil eines Nockenwellenlagers ist. Auch die Lagerschale 11 ist lediglich, ebenso wie die Nockenelemente 6, auf das Grundelement 4 aufgesteckt und wird in axialer Richtung von den jeweils benachbarten Nockenelementen 6 beziehungsweise den Arretierelementen 9 in axialer Richtung gehalten. Die Lagerschale 11 ist bevorzugt einstückig, also ungeteilt, ausgebildet.The end of the
Um die Nockenelemente 6 auch in Umfangsrichtung bezüglich des Grundelements 4 beziehungsweise der Grundnockenwelle 2 zu halten, also drehfest mit diesem zu verbinden, ist zwischen dem Grundelement 4 und den Nockenelementen 6 mindestens ein Verbindungselement 12 angeordnet. Dieses ist drehmomentübertragend ausgebildet, ist also sowohl drehfest mit dem Grundelement als auch mit den Nockenelementen 6 verbunden.In order to keep the cam elements 6 in the circumferential direction with respect to the
Die
In der Darstellung der
Die Fixieröffnungen 19 durchgreifen die Nockenelemente 6 in axialer Richtung vollständig, sodass trotz der Verbindungselemente 12 ein Aufschieben der Nockenelemente 6 auf das Grundelement 4 möglich ist. Die Verbindungselemente 12 sorgen somit lediglich für ein Festsetzen der Nockenelemente 6 bezüglich des Grundelements 4 in Umfangsrichtung. Bevorzug bestehen die Verbindungselemente 12 jeweils aus einem Haltebereich 20 und einem Stützbereich 21. Der Haltebereich 20 liegt dabei im Wesentlichen vollständig in der Halteöffnung 17 vor, während der Stützbereich 21 auf dem Mantel 18 beziehungsweise der Mantelfläche aufliegt und wenigstens bereichsweise in die jeweilige Fixieröffnung 19 eingreift. Somit sind die Verbindungselemente 12 zur Drehmomentübertragung zwischen dem Grundelement 4 und den Nockenelementen 6 ausgebildet.The fixing
Zumindest eines der Verbindungselemente 12 bildet überdies eine Haltevorrichtung 22 zur Axialfestsetzung des Nockenträgers 3 bezüglich der Grundnockenwelle 2 mit aus. Die Haltevorrichtung 22 ist in dem hier vorliegenden Fall als Rastvorrichtung ausgebildet, wobei in einer Radialausnehmung 23 der Grundnockenwelle 2 ein Rastelement 24 - welches hier kugelförmig ist - vorgesehen ist. Das Rastelement 24 wird von einem Federelement 25 in Richtung des Verbindungselements 12 gedrängt. Das Verbindungselement 12 weist in der hier dargestellten Ausführungsform drei Rastausnehmungen 26 auf, in welche das Rastelement 24 rastend eingreifen kann. Der hier dargestellte Ventiltrieb 1 ist dreifach verstellbar, der Nockenträger 3 ist demnach in drei verschiedene Axialpositionen bezüglich der Grundnockenwelle 2 bringbar. Auf diese Weise kann der Nockenträger 3 in axialer Richtung bezüglich der Grundnockenwelle 2 verlagert werden, wobei bei jeder Verlagerung die Rastkraft der Haltevorrichtung 22 überwunden werden muss.At least one of the connecting
Die
Die
Die
Die
Die Montage des Nockenträgers 3 erfolgt üblicherweise wie folgt: Zunächst wird die Lagerschale 11 auf das Grundelement 4 aufgebracht. Anschließend werden die Verbindungselemente 12 beidseitig der Lagerschale 11 angeordnet. Anschließend werden zwei der Ventilbetätigungsnocken 8 links der Lagerschale 11 und zwei weitere der Betätigungsnocken 8 rechts der Lagerschale 11 derart auf das Grundelement 4 aufgeschoben, dass die Fixieröffnungen 19 der Ventilbetätigungsnocken 8 einen Teil der Verbindungselemente 12, insbesondere deren Stützbereich 21, umgreifen. Rechts der Lagerschale 11 wird anschließend die Schaltkulisse 7 ebenfalls derart auf das Grundelement 4 aufgebracht, dass ihre Fixieröffnung 19 mit dem Verbindungselement 12 zusammenwirkt. Anschließend werden die endseitigen Nockenelemente 6, also in diesem Fall eines der Ventilbetätigungsnocken 8 sowie die Schaltkulisse 7, in axialer Richtung an dem Grundelement 4 festgesetzt. Auf diese Weise sind auch die weiteren Nockenelemente 6 sowie die Lagerschale 11 in axialer Richtung sicher gehalten.The mounting of the
Die
Mit dem vorstehend beschriebenen Ventiltrieb 1 beziehungsweise dem Nockenträger 3 wird ein modularer Aufbau erzielt, welcher eine einfache und kostengünstige Herstellung des Nockenträgers 3 verspricht. Insbesondere ist es dabei möglich, den Nockenträger 3 nach Art eines Baukastens zusammenzustellen, also verschiedene Baureihen des Ventiltriebs 1 aus den gleichen Bauteilen zusammenzusetzen.With the
Claims (10)
- Valve train (1) in an internal combustion engine, comprising at least one basic camshaft (2), on which a cam support (3) comprising at least one valve-actuating cam (8) is provided for conjoint rotation and in an axially displaceable manner, the cam support (3) having a tubular basic element (4) which receives the basic camshaft (2) at least in regions and on which at least one cam element (6) of the cam support (3) is arranged, characterised in that at least one torque-transmitting connecting element (12) is arranged between the basic element (4) and the cam element (6).
- Valve train according to claim 1, characterised in that the connecting element (12) engages in a retaining opening (17) in the basic element (4) at least in regions and is held therein in an interlocking manner at least in the circumferential direction.
- Valve train according to any of the preceding claims, characterised in that the connecting element (12) engages in a locating opening (19) in the cam element (6) at least in regions and is mounted therein such that it cannot move in the circumferential direction.
- Valve train according to any of the preceding claims, characterised in that a plurality of cam elements (6) are provided which are fixed in the axial direction by contact with adjacent cam elements (6).
- Valve train according to any of the preceding claims, characterised in that, when viewed in the circumferential direction, the basic element (4) has only a single retaining opening (17) and/or the cam element (6) has only a single locating opening (19).
- Valve train according to any of the preceding claims, characterised in that the connecting element (12) at least simultaneously forms a retaining device (22) for axially fixing the cam support (3) with respect to the basic camshaft (2).
- Valve train according to any of the preceding claims, characterised in that a plurality of connecting elements (12) are provided so as to be spaced apart from one another in the axial direction, a camshaft bearing resting directly on the basic element (4) between two of the connecting elements (12).
- Valve train according to any of the preceding claims, characterised in that the camshaft bearing is held by adjacent connecting elements (12) and/or cam elements (6) such that it cannot move in the axial direction.
- Internal combustion engine comprising at least one valve train (1) having at least one basic camshaft (2), on which a cam support (3) comprising at least one valve-actuating cam (8) is provided for conjoint rotation and in an axially displaceable manner, the cam support (3) comprising a tubular basic element (4) which receives the basic camshaft (2) at least in regions and on which at least one cam element (6) of the cam support (3) is arranged, characterised in that at least one torque-transmitting connecting element (12) is arranged between the basic element (4) and the cam element (6).
- Method for producing a valve train (1), comprising the steps of:- providing a basic element (4),- making at least one retaining opening (17) in the basic element (4),- inserting a torque-transmitting connecting element (12) into the retaining opening (17), and- sliding at least one cam element (6), in particular a valve-actuating cam (8), over the connecting element (12).
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE102011109256.4A DE102011109256B4 (en) | 2011-08-02 | 2011-08-02 | Valve gear of an internal combustion engine and internal combustion engine |
PCT/EP2012/003265 WO2013017270A1 (en) | 2011-08-02 | 2012-08-01 | Valvetrain of an internal combustion engine, an internal combustion engine, and a method for producing a corresponding valvetrain |
Publications (2)
Publication Number | Publication Date |
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EP2739830A1 EP2739830A1 (en) | 2014-06-11 |
EP2739830B1 true EP2739830B1 (en) | 2015-05-27 |
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Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP12743087.4A Active EP2739830B1 (en) | 2011-08-02 | 2012-08-01 | Valvetrain of an internal combustion engine, an internal combustion engine, and a method for producing a corresponding valvetrain |
Country Status (5)
Country | Link |
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US (1) | US9255496B2 (en) |
EP (1) | EP2739830B1 (en) |
CN (1) | CN103732867B (en) |
DE (1) | DE102011109256B4 (en) |
WO (1) | WO2013017270A1 (en) |
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DE102012213739A1 (en) * | 2012-08-02 | 2014-02-06 | Mahle International Gmbh | Camshaft for an internal combustion engine |
DE102013010330A1 (en) * | 2013-06-20 | 2014-12-24 | Volkswagen Aktiengesellschaft | camshaft |
DE102013017477B3 (en) * | 2013-10-21 | 2015-04-02 | Audi Ag | Valve gear of an internal combustion engine, internal combustion engine and method for producing a valve train |
DE102013114021A1 (en) * | 2013-12-13 | 2015-06-18 | Thyssenkrupp Presta Teccenter Ag | adjustable camshaft |
CN103982263B (en) * | 2014-04-11 | 2016-09-14 | 奇瑞汽车股份有限公司 | A kind of VVT |
DE102014007166B4 (en) | 2014-05-15 | 2020-10-22 | Audi Ag | Valve drive for an internal combustion engine and internal combustion engine with at least one valve drive |
DE102014007189B4 (en) | 2014-05-15 | 2021-03-18 | Audi Ag | Valve drive for gas exchange valves with cam carrier and basic shaft toothing in the locking means area |
DE102014008156B4 (en) * | 2014-05-30 | 2022-04-14 | Daimler Ag | Valve train for an internal combustion engine |
DE102014109751B4 (en) * | 2014-07-11 | 2016-06-30 | Thyssenkrupp Presta Teccenter Ag | Method for arranging a camshaft in a camshaft module |
CN106593569B (en) * | 2016-12-12 | 2019-02-15 | 孙德军 | A kind of Mechanical course valve actuating gear and control method |
DE102017214297A1 (en) * | 2017-08-16 | 2019-02-21 | Thyssenkrupp Ag | Sliding element with partially hardened grid lift |
DE102021204314A1 (en) * | 2021-04-29 | 2022-11-03 | Mahle International Gmbh | Sliding cam system for an internal combustion engine |
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DE10121798A1 (en) * | 2001-05-04 | 2002-11-07 | Audi Ag | Valve gear for internal combustion engine has valve operating element with rotatably mounted stepped roller with center section of larger diameter and edge sections on both sides with smaller diameter |
DE102004002301A1 (en) * | 2004-01-16 | 2005-08-11 | Audi Ag | Process to manufacture an automotive camshaft by application of a sleeve-fit extension to main camshaft section |
DE102004037198A1 (en) * | 2004-07-30 | 2006-03-23 | Ina-Schaeffler Kg | Valve gear of an internal combustion engine |
DE102006012386B3 (en) * | 2006-03-15 | 2007-08-30 | Iav Gmbh Ingenieurgesellschaft Auto Und Verkehr | Valve gear for internal combustion engine, has cam connected with cam shaft in torque-proof manner, and another cam supported on cam shaft, where latter cam is connectable and separable with former cam by controllable main locking piston |
DE102009022657A1 (en) * | 2009-05-26 | 2011-01-05 | Audi Ag | Camshaft for valve train of internal-combustion engine, has cam carrier axially supported on base shaft in relocatable manner and comprising internal teeth cooperated with external teeth, where teeth are made of fiber-reinforced plastic |
DE102009037270B4 (en) * | 2009-08-10 | 2011-04-07 | Iav Gmbh Ingenieurgesellschaft Auto Und Verkehr | Valve train for internal combustion engines for actuating gas exchange valves |
DE102009048621B4 (en) | 2009-10-06 | 2016-07-07 | Audi Ag | Valve gear for gas exchange valves with clamping of base camshaft and cam carrier in circumferential or rotational direction |
DE102009052222B4 (en) * | 2009-11-06 | 2022-02-03 | Volkswagen Ag | Method for manufacturing a camshaft piece |
DE102010004591B4 (en) * | 2010-01-14 | 2021-08-19 | Audi Ag | Built cam carrier for valve train |
-
2011
- 2011-08-02 DE DE102011109256.4A patent/DE102011109256B4/en not_active Withdrawn - After Issue
-
2012
- 2012-08-01 EP EP12743087.4A patent/EP2739830B1/en active Active
- 2012-08-01 US US14/236,553 patent/US9255496B2/en active Active
- 2012-08-01 WO PCT/EP2012/003265 patent/WO2013017270A1/en active Application Filing
- 2012-08-01 CN CN201280038079.6A patent/CN103732867B/en active Active
Also Published As
Publication number | Publication date |
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CN103732867B (en) | 2016-02-10 |
US20140174389A1 (en) | 2014-06-26 |
CN103732867A (en) | 2014-04-16 |
WO2013017270A1 (en) | 2013-02-07 |
DE102011109256A1 (en) | 2013-02-07 |
DE102011109256B4 (en) | 2015-11-19 |
US9255496B2 (en) | 2016-02-09 |
EP2739830A1 (en) | 2014-06-11 |
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