DE202008018146U1 - Device for adjusting the camshaft of internal combustion engines - Google Patents

Abstract

Device for camshaft adjustment for internal combustion engines, comprising a camshaft adjuster which has at least one drive wheel, a rotor, a stator with a stator housing and a camshaft with cams, and an oil supply to the camshaft adjuster, characterized in that a camshaft adjuster (1) with a rotor (3) , the inside diameter of which is smaller than a circle (10) enclosing a cam, is held in a positive and / or non-positive manner on one end (8) of a camshaft (6), the camshaft (6) for receiving a connecting element (11 ) has a hollow design (12), such that the connecting element (11) is held in the hollow design (12) of the camshaft (6) in a positive and / or non-positive manner, either the connecting element (11) or the rotor (3 ) at least one driver (13) for the positive connection of the rotor (3) with the camshaft (6) and the connection ungselementes (11), wherein the driver (13) through at least one recess in a hollow end (8) of the camshaft (6) is protruding, and wherein the connecting element ...

Description

The invention relates to a device for adjusting the camshaft for internal combustion engines according to the preamble of the claim.

The camshaft adjustment devices associated with the variable valve timing systems are disposed directly on a camshaft drive and change the angular position between the crankshaft and the camshaft during operation of an internal combustion engine. This change in the angular position is effected by a rotation of the camshaft, whereby the opening and closing times of the gas exchange valves are changed. The devices for camshaft adjustment are systems that have in particular according to the swing motor principle either a hydraulic or mechanical action principle and in addition consist of several individual components. The connection of these components takes place in particular via threaded bolts, wherein the camshaft adjuster is fastened on the camshaft by means of a screw connection to a hollow or full camshaft. The camshafts or the ends of the camshafts are often only partially hollow. The production cost of the individual components of a device for adjusting the camshaft is relatively high, since in the production of these components, a precise geometry of the individual component surfaces must be met, so that the production of the individual components is very expensive and expensive. In the DE 103 34 690 B4 a device for camshaft adjustment for internal combustion engines is described, comprising a camshaft adjuster having at least one drive wheel, a rotor, a stator with a stator housing and a camshaft with cams and the rotor has a rotor pin which is enclosed in a predetermined depth setting of the camshaft and in a main body of the rotor and in the rotor pin channels for oil supply are provided. From the DE 103 20 639 A1 is also a camshaft adjuster for vehicles, preferably motor vehicles, known with a pivoting motor having a rotatably connected to a camshaft rotor which is rotatable relative to a surrounding stator. The camshaft here has at least one positive and / or frictional connection, by means of which the main body of the rotor is non-rotatably arranged on the camshaft, wherein the inner diameter of the rotor is greater than the diameter of a cam of the camshaft circumscribing circle. In the dissertation of Mr. W. Hannibal, University of Stuttgart 1993 , A positioning of a rotor of a camshaft adjustment is shown directly on the camshaft, the rotor comprising the camshaft connecting. Furthermore, from the DE 10 2004 026 863 A1 known to connect the rotor non-positively and / or positively with the camshaft. From the DE 39 22 962 A1 from 1989 elements are known which are introduced into the hollow end or a bore at the end of the camshaft and take over the oil passage from the oil feed point to the camshaft adjuster. In the DE 199 344 05 A1 If such an oil guide is further specified.

It is the object of the present invention, a compact device for adjusting the camshaft and a stiffness-optimized connection between a thin camshaft and a camshaft adjuster so that despite a reduction in the number of components a simple and secure attachment of the camshaft adjuster takes place on the camshaft by a simple connection and at the same time an end attachment of the camshaft adjuster is used in particular for thin hollow camshafts, and that the device for camshaft adjustment with low production costs and simple means is inexpensive to produce. Another object is to provide a positioning of the components of the oil guide to the camshaft adjuster to allow easy, secure installation.

This object is achieved by the features in the characterizing part of claim 1, characterized in that a camshaft adjuster with a rotor whose inner diameter is smaller than a cam enclosing circle, positively and / or non-positively held on one end of a camshaft, wherein the camshaft for receiving a recess for oil supply having connecting element has a hollow design, such that the connecting element in the hollow design of the camshaft is held positively and / or non-positively, wherein either the connecting element or the rotor at least one driver for positive connection of the rotor with the camshaft and the connecting element, wherein the driver is guided by at least one recess in a hollow end of the camshaft piercing, and wherein the connecting element is positioned to the rotor and the camshaft by means of the driver and thereby simultaneously positioning the A made recesses for oil supply of the connecting element to the camshaft adjuster and the camshaft out. This design of the arrangement of the camshaft adjuster eliminates the fixing screw for holding the camshaft adjuster. Another advantage is that the camshaft adjustment device can be attached to small outside diameter camshafts and that the rotor and hollow camshaft end connection element provide a rigid and fixed connection zone at the end of the camshaft arises, which allows for compact dimensions smallest camshaft diameter, resulting in a low friction of the camshaft in their camps. The use of thin camshafts is particularly advantageous in cylinder heads, in which variable valve lift adjustments are used, since the space in the cylinder head is limited by the additional required components of the variable valve train. In addition, smaller dimensions of the internal combustion engine can be achieved by this compact arrangement of the components camshaft adjuster and camshaft end.

It is advantageously provided that the connecting element has at least one recess for guiding the driver of the rotor and / or for guiding the oil in the camshaft adjuster from a hydraulic valve via an oil feed point. The recesses are formed as grooves on the outer diameter of the connecting element or as holes in the core of the connecting element. A further advantageous embodiment is seen in that recesses for oil supply in the camshaft adjuster is simultaneously formed as a recess for guiding at least one driver. Thus, the connecting element with the drivers is a simple assembly with integrated Ölführungsaufgabe and this module also assumes the task of torque transmission from the drive wheel to the camshaft. For manufacturing reasons, it may be advantageous to form the connecting element in several parts and in addition has bores for oil inlet and outlet in particular from different materials and the camshaft. It is preferably provided that the rotor and / or the cover plate and the drive wheel have recesses for oil supply. This arrangement has the advantage that the recesses can be introduced, for example, in a manufacturing process in the forming process directly as a cost-effective manufacturing solution in the shape of the rotor, the drive wheel or the cover plate.

A further preferred embodiment is seen in that the bearing of the stator housing and the drive wheel with the cover plate is provided both on the camshaft and on the connecting element or that the storage of the stator housing and the drive wheel with the cover plate provided in particular on an outer diameter of the rotor is. Both forms of storage are used in practice and depending on the application, the types of storage can be selected.

Furthermore, it is provided that is provided for transmitting a torque from the drive wheel to the camshaft by means of the rotor form-fitting manner via at least one driver and / or by means of frictional engagement over a surface between the rotor and the camshaft. As a result, the torque transmission distributed proportionally to the surface between the rotor and camshaft and on the drivers, so that the connection zone can be kept extremely compact in this dimension at this point.

A manufacturing technology favorable embodiment is seen in that the connecting element has a recess on and / or in the connecting element for oil return of the leakage oil from the camshaft adjuster in a cylinder head and that the connecting element has a recess in which a spring element is guided with one end or that Camshaft has a recess in which the spring element is guided with one end. This is a simple and safe removal of the leakage oil is preferably obtained in camshaft adjusters with a belt drive. Furthermore, the attachment of the spring element is easy to carry out.

Preferably, it is also provided that the connecting element and / or the rotor are preferably made of lightweight aluminum or plastic. Thus, the mass of the adjustment is low.

Another production-technically advantageous embodiment is seen in that the drive wheel is formed in one or more parts as a chain or pulley. The adjusting device can thus be used for various drive concepts of camshafts on internal combustion engines.

This camshaft adjustment device according to the invention has the advantage that it has a connection zone, which is located at the front end of the camshaft, and a short distance from the drive plane of the camshaft adjuster, chain or toothed belt drive, to the center of the first cylinder of the engine and a deformation the camshaft counteracted towards the inside. For weight reasons, the camshaft is hollow and the connecting element is inserted into the hollow camshaft. When using preferably thin camshafts nevertheless creates a rigid and solid connection zone at the end of the camshaft. The connection zone is very important for the smallest camshaft diameters so that the drive torques of the camshaft can be transmitted safely and permanently.

With the formation of the rotor and the connecting element, as part of the oil guide from the bearing to the rotor and the pressing of the connecting element in the hollow camshaft, as well as the fact that the connection of the rotor over a frictional and / or positive connection is made to the camshaft, both a saving of components by the elimination of an expensive screw connection of the camshaft adjuster on the camshaft is achieved, as well as a more cost-effective production of the camshaft adjuster for single or multi-part camshafts made of gray cast iron or steel.

The invention will be explained in more detail below with reference to a preferred embodiment.

Show it:

1 a device according to the invention for adjusting the camshaft with a first oil supply in the camshaft adjuster in section;

2 the camshaft adjustment device with a second oil supply in the camshaft adjuster in section;

3 an embodiment of a one-piece rotor with grooves for receiving a driver in a perspective view;

4 an embodiment of a one-piece connector with integrated drivers in perspective view;

5 an embodiment of the device for camshaft adjustment and camshaft in perspective with detail;

6 a further embodiment of the device for the camshaft adjustment for a belt drive in perspective with detail;

7 an embodiment of a one-piece rotor with integrated drivers in perspective view;

8th an embodiment of a one-piece connector in perspective view;

The one in the W, 2 . 5 and 6 illustrated camshaft adjuster 1 includes in its basic elements a cover plate 2 , a stator 4 , a drive wheel 2 in the form of a toothed belt or sprocket, a connecting element 11 and a rotor 3 in a stator housing 5 is arranged. The rotor 3 has a plurality of rotor blades uniformly distributed over an annular base body 26 which protrude radially from the annular base body. In the main body of the rotor 3 are oil channels 22 arranged on both sides of the rotor. The stator housing 5 has in a known manner radially inwardly directed wings, not shown, which are evenly distributed over the inner circumference of the stator housing 5 are arranged. In the mounting target position, between the stator vanes of the stator housing 5 the rotor blades 26 of the rotor 3 one. In a camshaft 6 is a connecting element 11 held pressed. This connecting element 11 or the rotor 3 have at least one driver 13 on, through which a positive connection to the camshaft 6 or to the rotor 3 or to the connector 11 will be produced. Through recesses at one end 8th the camshaft 6 and recesses in the main body of the rotor 3 or in the connecting element 11 Thus, the desired positive connection is made possible. Furthermore, are located in the connecting element 11 recesses 15 to the oil guide. The basic elements of the camshaft adjuster described 1 , Cover plate 16 , Stator housing 5 and drive wheel 2 be on the front surface of the cover plate 16 by means of screws 24 assembled axially in a known manner. The screws 24 have a mating surface on which the cover plate 16 , the stator housing 5 and the drive wheel 2 Center. The connecting element 11 serves in addition to the oil guide. According to 1 a first flow of oil to the camshaft adjuster takes place 1 through a first recess 15 to the driver 13 , from there via oil wells 25 in the camshaft 6 and the drive wheel 2 to the rotor 3 , According to 2 a second oil flow takes place via a further recesses 15 and an annular groove 21 in the connecting element 11 through the cover plate 16 to the rotor 3 , According to 1 and 2 are still on the circumference of the camshaft 6 in particular two oil inlet holes 20 provided by Ca. 90 '' are arranged offset from each other, and by the oil through two recesses 15 flows. About an oil feed-in 17 the oil passes through the camshaft 6 in the connecting element 11 and from there on towards the camshaft adjuster 1 , In the oil feed station 17 are two annular grooves 19 and two oil inlet holes 18 intended. The on the camshaft 6 provided cam 7 are preferably on the camshaft 6 pressed.

In the 1 . 2 and 3 , illustrated camshafts 6 with the cams thereon 7 can be both one-piece or multi-piece with the camshaft 6 joined cams 7 be educated. 3 and 7 show the details of the camshaft adjuster 1 with the rotor 3 , The rotor 3 with the rotor blades 26 is preferably according to 4 one-piece and made of aluminum. In 4 and 8th is the connecting element 11 shown in detail. In are the takers 13 that the positive connection between the rotor 3 and camshaft 6 allow and the recesses 15 shown for oil supply. The connecting element 11 is in this embodiment in one piece trained so that the driver 13 Part of the connecting element 11 are. In another embodiment, not shown, the connecting element 11 multi-part designed so that the driver 13 in the recesses 15 are arranged to supply oil. The connecting element 11 is preferably formed of aluminum. This has the advantage that at higher operating temperatures of the internal combustion engine, the composite of connecting element 11 and camshaft 6 is additionally strengthened by the different expansions between steel and aluminum. In 8th are the recesses 15 for oil supply and the recesses for guiding the driver 13 shown. In this embodiment, the drivers grip 13 according to 7 through the camshaft 6 through into the recesses 15 of the connecting element 11 one. According to 4 , indicates the connecting element 11 an annular groove 21 on that the oil flow to the rotor 3 allows. 6 shows a spring element 28 , which is not shown in more detail with one end with the connecting element 11 and / or with the camshaft 6 connected is. According to 8th is a recess 31 for fastening the spring element 28 in the connecting element 11 shown. The spring element 28 depends on the application of the camshaft adjuster 1 and depending on the design of the internal combustion engine is not required. Furthermore, in the embodiment according to 6 a locking bolt 27 provided for specially designed camshaft adjuster 1 the relative angular position between the rotor 3 and stator 4 blocked. Furthermore, in this embodiment, a closure lid 32 provided with a sealing element to in this type of camshaft adjusters 1 belt drive to prevent leakage of leakage oil in the engine compartment of an internal combustion engine.

LIST OF REFERENCE NUMBERS

1

Phaser

2

drive wheel

3

rotor

4

stator

5

stator

6

camshaft

7

cam

8th

End of the camshaft

9

Bearing diameter

10

Cam enclosing circle

11

connecting element

12

Training the camshaft

13

takeaway

14

Face of the rotor

15

Recess for guiding the oil

16

cover

17

Oil feed point

18

Oil inlet bore to the oil feed point

19

groove

20

Oil supply bore

21

ring groove

22

Oil channel in the rotor

23

Recess in the rotor for drivers

24

screw

25

oil well

26

rotor blades

27

locking bolt

28

spring element

29

hydraulic valve

30

Cam base circle

31

Recess for securing the spring element

32

Cover with sealing element

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 10334690 B4 [0002]
• DE 10320639 A1 [0002]
• DE 102004026863 A1 [0002]
• DE 3922962 A1 [0002]
• DE 19934405 A1 [0002]

Cited non-patent literature

• Mr. W. Hannibal, University of Stuttgart 1993 [0002]

Claims (18)

Device for adjusting the camshaft of internal combustion engines, comprising a camshaft adjuster having at least one drive wheel, a rotor, a stator with a stator housing and a camshaft with cams, and an oil feed to the camshaft adjuster, characterized in that a camshaft adjuster ( 1 ) with a rotor ( 3 ) whose inner diameter is smaller than a cam enclosing circle ( 10 ) is, positively and / or non-positively on one end ( 8th ) a camshaft ( 6 ), wherein the camshaft ( 6 ) for receiving a recesses for oil supply having connecting element ( 11 ) a hollow training ( 12 ), such that the connecting element ( 11 ) in the hollow training ( 12 ) of the camshaft ( 6 ) is held positively and / or non-positively, wherein either the connecting element ( 11 ) or the rotor ( 3 ) at least one driver ( 13 ) for the positive connection of the rotor ( 3 ) with the camshaft ( 6 ) and the connecting element ( 11 ), wherein the driver ( 13 ) by at least one recess in a hollow end ( 8th ) of the camshaft ( 6 ) is guided, and wherein the connecting element ( 11 ) to the rotor ( 3 ) and to the camshaft ( 6 ) by means of the drivers ( 13 ) and thereby at the same time a positioning of the recesses ( 15 ) to the oil supply of the connecting element ( 11 ) to the camshaft adjuster ( 1 ) and to the camshaft ( 6 ) takes place. Camshaft adjusting device according to claim 1, characterized in that the inner diameter of the rotor ( 3 ) in particular smaller than a cam base circle ( 30 ) is provided. Camshaft adjusting device according to claim 1 and 2, characterized in that the camshaft ( 6 ), in particular holes ( 20 . 25 ) for oil injection and outfeed. Camshaft adjusting device according to one of claims 1 to 3, characterized in that the connecting element ( 11 ) at least one recess for guiding the drivers ( 13 ) of the rotor ( 3 ) and at least one recess ( 15 ) for supplying oil from a hydraulic valve ( 29 ) in the camshaft adjuster ( 1 ) having. Camshaft adjusting device according to one of claims 1 to 4, characterized in that the hydraulic valve ( 29 ) for controlling the oil supply in the camshaft adjuster ( 1 ) in particular in the connecting element ( 11 ) is provided. Camshaft adjustment device according to one of claims 1 to 5, characterized in that the recesses ( 15 ) for the oil supply in the camshaft adjuster ( 1 ) on the outer diameter of the connecting element ( 11 ) are formed as grooves. Camshaft adjustment device according to one of claims 1 to 5, characterized in that the recesses ( 15 ) for the oil supply in the camshaft adjuster ( 1 ) in the core of the connecting element ( 11 ) are formed as bores. Camshaft adjustment device according to one of claims 1 to 5, characterized in that the recesses ( 15 ) for the oil supply in the camshaft adjuster ( 1 ) at the same time as a recess for guiding at least one driver ( 13 ) is trained. Camshaft adjusting device according to one of claims 1 to 8, characterized in that the rotor ( 3 ) and / or the cover plate ( 16 ) and the drive wheel ( 2 ) Have recesses for oil supply. Camshaft adjustment device according to one of claims 1 to 9, characterized in that a bearing of a stator housing ( 5 ) and a drive wheel ( 2 ) with a cover plate ( 16 ) on both the camshaft ( 6 ) as well as on the connecting element ( 11 ) is provided. Camshaft adjustment device according to one of claims 1 to 9, characterized in that the bearing of the stator housing ( 5 ) and the drive wheel ( 2 ) with the cover plate ( 16 ) in particular on an outer diameter of the rotor ( 3 ) is provided. Camshaft adjusting device according to one of claims 1 to 11, characterized in that a transmission of a torque from the drive wheel ( 2 ) to the camshaft ( 6 ) by means of the rotor ( 3 ) positively via at least one driver ( 13 ) and / or by frictional engagement over an area between the rotor ( 3 ) and camshaft ( 6 ) is provided. Camshaft adjusting device according to one of claims 1 to 12, characterized in that the connecting element ( 11 ) a recess on and / or in the connecting element ( 11 ) to the oil backflow of the leakage oil from the camshaft adjuster ( 1 ) in a cylinder head. Camshaft adjusting device according to one of claims 1 to 13, characterized in that the connecting element ( 11 ) has a recess in which a spring element ( 28 ) is guided with one end. Camshaft adjusting device according to one of claims 1 to 13, characterized in that the camshaft ( 6 ) has a recess in which the spring element ( 28 ) is guided with one end. Camshaft adjusting device according to one of claims 1 to 15, characterized in that the drive wheel ( 2 ) One or more parts is designed as a chain or pulley. Camshaft adjusting device according to one of the preceding claims, characterized in that the connecting element ( 11 ) is formed in several parts. Camshaft adjusting device according to one of claims 1 to 17, characterized in that the connecting element ( 11 ) and / or the rotor ( 3 ) are preferably formed of aluminum.

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