DE102011082591A1 - Axial bearing with double camshafts, camshaft adjusting device and internal combustion engine - Google Patents

Abstract

The invention relates to a camshaft adjusting device (1) with an inner camshaft (2), which is surrounded by an outer camshaft (3), wherein the two camshafts (2, 3) are rotatable relative to one another and via a central screw (11) on a phaser (10) are connected, wherein a radially resilient member (14) between the inner camshaft (2) and the outer camshaft (3) is arranged so that it comes into positive contact with the two camshafts (2, 3) to a Movement of the two camshafts (2, 3) to each other in at least one axial direction along the longitudinal axis (17) of the two camshafts (2, 3) to block. The invention also relates to an internal combustion engine with such a camshaft adjusting device.

Description

Field of the invention

The invention relates to a camshaft adjusting device with an inner camshaft, which is surrounded by an outer camshaft, wherein the two camshafts are rotatable relative to each other and are connected via a central screw to a phaser.

A camshaft adjusting device is also understood to mean a cam adjusting device which acts on valves in an internal combustion engine.

In modern internal combustion engines devices for variable adjustment of control times are used in wheel change valves to adjust the phase relation between a crankshaft and a camshaft in a defined angle range, ie between a maximum early and a maximum late position variable. This device is integrated in a drive train, via which torque is transmitted from the crankshaft to the camshaft. This drive train can be realized, for example, as a belt, chain or gear drive. The device has, in addition to the camshaft on a phase adjusting device and a central screw, by means of which the phase adjusting device is rotatably connected to the camshaft. The phase adjusting device can, for example, be designed as a vane-type pivoting motor with a plurality of pressure chambers acting against one another. By supplying pressure medium to a group of pressure chambers with simultaneous outflow of pressure medium from the other group of pressure chambers, the phase relation of the impeller relative to the cellular wheel and thus the camshaft relative to the crankshaft can be variably adjusted. The pressure medium flow to and from the pressure chambers is usually controlled by means of a hydraulic directional proportional valve, which, for example, can be accommodated within a central screw.

In this context, so-called double camshafts are often used, ie an inner camshaft and an outer camshaft. As such, for example, in the publications DE 10 2010 008 002 A1 and DE 10 2010 005 603 A1 disclosed. However, the two camshafts must be secured axially relative to each other, which is why in this regard thrust bearings are used, which are still in terms of simplicity and cost reduction can be improved.

It is the object of the present invention to provide a remedy. In particular, a solution is to be found for double camshafts, in which the inner camshaft to the outer camshaft is stored axially captive, this solution is easy to implement and inexpensive to produce.

Disclosure of the invention

This object is achieved in that a radially missing element is arranged between the inner camshaft and the outer camshaft so that it comes into positive contact with both camshafts to a movement and at least one axial direction along the longitudinal axis of the two camshafts to each other To block.

Advantageous embodiments are claimed in the subclaims and are explained in more detail below.

Thus, it is advantageous if the resilient element of an activation device, such as a ball, in contact with both the inner camshaft, and the outer camshaft can be brought. Such a resilient element may, for example, be a spring or a compressible element. Advantages have been set in particular with metallic springs. When using an activation device, pressure on insertion of the central screw can be exerted on the resilient element via this intermediate element, so that then the positive connection between the resilient member and the two camshafts can be produced. A particularly efficient design can then be realized.

It is also advantageous if the ball is in the blocking state of the resilient element with the central screw in abutment. The surface of the central screw can then be used to move the ball towards the resilient member and subsequently move the resilient member into positive engagement with the camshafts. Other intermediate elements can be avoided.

An advantageous variant is also characterized in that the missing element and the ball are located in a common passage opening of the inner camshaft. The assembly is simplified.

Also, the assembly is further simplified when the through-hole is dimensioned so that the ball is prevented from exiting the inner camshaft in the direction of the radially inner, even in this area missing central screw.

It has also proven to be advantageous if the passage opening is formed as a step-two stepped and / or expedient manner in an inner camshaft near Section has a round cross-section and in an outer camshaft near section has a polygonal cross-section. As a result, standard components can be used, which reduces the costs in this regard.

When the resilient member is in abutment with at least one adjustment side shoulder of the outer camshaft and an off-center shoulder of the inner camshaft, so locking in at least one axial direction can be ensured, whereas in abutment against a respective adjuster-side shoulder of the inner camshaft and a verstellerferne shoulder of the outer camshaft also blocking in both axial directions can be realized.

It is advantageous for the design of the camshaft adjusting device when the inner camshaft is formed in two parts and the passage opening in a sleeve-like end or a sleeve is present.

Also, it is for the design freedom in constructing the camshaft adjusting advantage if the outer camshaft is formed in two parts and the through hole in a collar-like end or a collar of the outer camshaft is present.

The invention also relates to an internal combustion engine with such a camshaft adjusting device according to the invention.

The invention will be explained in more detail with reference to a drawing. A first embodiment is shown in two switching positions. Show it:

1 a cross section through a camshaft adjusting device according to the invention in a fully assembled position and

2 a cross-sectional view of in 1 shown camshaft adjusting device in a not yet fully assembled position.

The figures are merely schematic in nature and are only for the understanding of the invention. The same elements are given the same reference numerals.

In 1 a first camshaft adjusting device according to the invention is shown. This camshaft adjusting device is denoted by the reference numeral 1 Mistake.

The camshaft adjusting device 1 has an inner camshaft 2 and an outer camshaft 3 on. The inner camshaft 2 is constructed in two parts and has an elongated section 4 and a collar-like section acting as a covenant 5 referred to as. The inner camshaft 2 is also formed in two parts and has an elongated section 6 and a sleeve-like portion acting as a sleeve 7 referred to as.

A torque from a crankshaft, not shown, via a transmission element 8th by means of a toothing present there 9 on the bunch 5 the outer camshaft 3 transfer.

An adjuster 10 is frontally with a central screw 11 in connection.

The central screw 11 is with its outside with an activation device 12 in plant. The activation device 12 is as a ball 13 educated. The ball 13 in turn is in contact with a resilient element 14 located. The springy element 14 , as well as the ball 13 is in a through hole 15 in the sleeve 7 the inner camshaft 2 located. The passage opening 15 is designed in two stages and has a limit 16 on that a complete escape of the ball 13 from the passage opening 15 in the direction of the central screw or a longitudinal axis 17 the camshaft adjusting device 1 , ie in the radially interior, prevented.

The springy element 14 is during screwing in the central screw 11 in the inner camshaft 2 , as in 2 represented, outwardly drängbar. The ball 13 comes into contact with the central screw 11 , is pressed radially outward, thereby forcing the resilient member 14 also radially outward. The springy element 14 then comes into abutment with a verstellseitigen or Verstellernahen first shoulder, by the federal government 5 is formed and remains in abutment with a second shoulder, which divert from the passage opening 15 through the sleeve 7 is formed.

In the embodiment shown here is also the second shoulder 19 opposite shoulder of the sleeve 7 in contact with the resilient element 14 located as well as the discretionary shoulder of the federal government 5 , from the passage opening 15 seen from in contact with the resilient element 14 located.

LIST OF REFERENCE NUMBERS

1

 Camshaft adjusting device

2

 inner camshaft

3

 outer camshaft

4

 elongated section

5

 Federation

6

 elongated section

7

 shell

8th

 transmission element

9

 gearing

10

 adjuster

11

 central screw

12

 activation device

13

 Bullet

14

 missing item

15

 Through opening

16

 limit

17

 longitudinal axis

18

 first shoulder

19

 second shoulder

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 102010008002 A1 [0004]
• DE 102010005603 A1 [0004]

Claims (10)

Camshaft adjusting device ( 1 ) with an inner camshaft ( 2 ), by an outer camshaft ( 3 ), wherein the two camshafts ( 2 . 3 ) are rotatable relative to each other and via a central screw ( 11 ) on a stage ( 10 ), characterized in that a radially resilient element ( 14 ) between the inner camshaft ( 2 ) and the outer camshaft ( 3 ) is arranged so that it is in positive contact with the two camshafts ( 2 . 3 ) to prevent movement of the two camshafts ( 2 . 3 ) to each other in at least one axial direction along the longitudinal axis ( 17 ) of the two camshafts ( 2 . 3 ) to block. Camshaft adjusting device ( 1 ) according to claim 1, characterized in that the resilient element ( 14 ) of an activation device ( 12 ), like a ball ( 13 ) in engagement with both the inner camshaft ( 2 ), as well as the outer camshaft ( 3 ) can be brought. Camshaft adjusting device ( 1 ) according to claim 2, characterized in that the ball ( 13 ) in the blocking state of the resilient element ( 14 ) of the central screw ( 11 ) is in plant. Camshaft adjusting device ( 1 ) according to claim 3, characterized in that the resilient element ( 14 ) and the ball ( 13 ) in a common passage opening ( 15 ) of the inner camshaft ( 2 ) are located. Camshaft adjusting device ( 1 ) according to claim 4, characterized in that the passage opening ( 15 ) is dimensioned so that the ball ( 13 ) at an exit from the inner camshaft ( 2 ) is prevented in the direction of the radially inner, even in this area missing central screw ( 11 ). Camshaft adjusting device ( 1 ) according to claim 4 or 5, characterized in that the passage opening ( 15 ) is designed as a bore doubly stepped and preferably in an inner camshaft near section has a round cross-section and in an outer camshaft near section has a polygonal cross-section. Camshaft adjusting device ( 1 ) according to one of claims 1 to 6, characterized in that the resilient element ( 14 ) in contact with at least one verstellseitigen shoulder ( 18 ) of the outer camshaft ( 3 ) and an off-the-shoulder shoulder ( 19 ) of the inner camshaft is located. Camshaft adjusting device ( 1 ) according to one of claims 4 to 7, characterized in that the inner camshaft ( 2 ) is formed in two parts and the passage opening ( 15 ) in a sleeve-like end ( 7 ) is available. Camshaft adjusting device ( 1 ) according to one of claims 4 to 8, characterized in that the outer camshaft ( 3 ) is formed in two parts and the passage opening ( 15 ) in a collar-like end ( 5 ) of the outer camshaft ( 3 ) is available. Internal combustion engine with a camshaft adjusting device ( 1 ) according to any one of the preceding claims.

Images