DE10346448B4 - Camshaft adjuster for an internal combustion engine - Google Patents

Abstract

Camshaft adjuster for an internal combustion engine with a in a camshaft (2) inserted control valve (3) having a guided in a guide sleeve (6) hydraulic control piston (5) with which an actuating unit (4) for angular adjustment of the camshaft (2) is controllable in which the actuating unit (4) has an inner body (14) connected in a rotationally fixed manner to the camshaft (2) and an outer body (13) rotatably mounted relative to the camshaft (2), via which a drive connection extends from a crankshaft to the camshaft (2) the control valve (3) is acted on by an electromagnetic device (10) and supplied via the camshaft (2) with hydraulic medium, wherein in the camshaft (2) in addition an oil guide module (23) is inserted, which at least for guiding the hydraulic medium between the camshaft ( 2) and control valve (3), characterized in that the oil guide module (23) in addition as a cover for the control valve ( 3) is formed, which serves both for sealing the control valve (3) relative to the camshaft (2) and for receiving a compression spring (8).

Description

The invention relates to a camshaft adjuster for an internal combustion engine according to the preamble of claim 1.

To reduce fuel consumption and raw emissions and to increase power and torque, gasoline engines are usually equipped with camshaft adjusters. These change the phasing of the camshaft relative to the crankshaft. At present, mostly hydraulic vane-type adjusters with working chambers are used. The adjustment is made by the controlled entry of oil from the engine circuit via a control valve in the chambers of the vane. The control valve is moved by an electromagnetic device.

From an older application DE 102 11 468 A1 is a generic camshaft adjuster for an internal combustion engine with a hydraulic control piston known. About the control piston, an actuating unit for angular displacement of a camshaft is controllable, wherein the actuating unit has a rotatably connected to the camshaft impeller and a camshaft rotatably mounted sprocket. About the sprocket runs a drive connection from the crankshaft to the camshaft. The control piston is guided in a separate guide sleeve which is pressed into the camshaft.

Furthermore, in the DE 10 2004 035 035 A1 discloses a camshaft adjuster with a check valve which is located in a hydraulic supply line or in a connection region of the camshaft adjuster.

The publication EP 1 286 023 A2 discloses a mounting flange which acts as a guide module for a hydraulic fluid between a camshaft and a control valve.

A camshaft adjusting device comprising a hydraulic-fluid-actuated locking mechanism is disclosed in US-A-5,466,347 US 6,382,155 B2 disclosed.

The general technical background is still on the EP 0 686 754 B1 directed.

The invention has for its object to provide a camshaft adjuster for an internal combustion engine, which allows for easy and cost manufacturability and time-saving and cost-effective installation of the camshaft adjuster high positioning speeds for changing the phase angle of the camshaft.

This object is achieved by the features specified in claim 1.

A significant advantage of the invention lies in the nature of the connection of the oil guide module with the camshaft. The use of an oil guide module results in a camshaft adjuster with significantly improved functional properties, in particular with regard to the adjustment speeds. The fact that the oil guide module is pressed into the camshaft, can be dispensed with screw, whereby the reliability increases. The camshaft adjuster can not only be smaller, but also lighter and cheaper. Another advantage results from the fact that the oil guide module can additionally serve to accommodate other components, such as a check valve and / or a filter. This reduces the space required for receiving additional components.

In some engines, it is possible for a camshaft bearing to be located between the phaser and the electromagnetic device. Advantageously, this camshaft bearing can be co-supplied with hydraulic fluid with little effort by an extension of the hydraulic fluid supply to the control valve. But it is also possible to provide the supply of the bearing via a separate hydraulic supply line.

Advantageously, allows a return spring with a corresponding design to compensate for the friction of the camshaft and / or bring the camshaft adjuster in the unpressurized state in a particular position.

Advantageously, the housing of the control valve and oil guide module can be combined in one component, which reduces the cost of individual components.

Further embodiments and advantages of the invention will become apparent from the remaining dependent claims and the description.

In the 1 to 6 the invention is explained with reference to 5 embodiments, in which:

1 a longitudinal section through a camshaft adjuster according to the invention, which is mounted on a camshaft of an internal combustion engine, wherein the camshaft adjuster comprises a control piston, which is acted upon by an electromagnetic device, a locking device and an oil guide module

2 a section AA through the camshaft adjuster with working chambers,

3 the camshaft adjuster, wherein a camshaft bearing is arranged between the electromagnetic device and the camshaft adjuster,

4 the camshaft adjuster with a pulse wheel,

5 the camshaft adjuster with a return spring, and

6 the camshaft adjuster, wherein the guide sleeve of the control valve and the oil guide module are made in one piece.

For simplicity, the same reference numerals are used in the figures for matching components.

The camshaft adjuster according to 1 to 6 is total with 1 designated and in association with a camshaft 2 an internal combustion engine shown. The camshaft adjuster 1 has a hydraulic control valve 3 with which an actuating unit 4 for adjusting the angle of the camshaft 2 is controllable.

The hydraulic control valve 3 has a control piston 5 in a guide sleeve 6 is guided, wherein the guide sleeve 6 in a concentric, extending from one end of the camshaft 2 in the axial direction extending bore 7 the camshaft 2 is inserted. The joining can take place thermally. Furthermore, the compound can be glued, mechanically joined or welded. Likewise, further joining methods are possible.

On one of the camshafts 2 facing side of the control piston 5 is one on the spool 5 acting compression spring 8th arranged, which are with their the control piston 5 opposite end to a floor 9 the side of the camshaft 2 closed guide sleeve 6 supports and with her the control piston 5 facing end on the control piston 5 acts.

On the camshaft 2 opposite side of the control piston 5 is a motor-mounted, formed by a pressure magnet electromagnetic device 10 arranged over which the control piston 5 against the spring force of the compression spring 8th is adjustable. This is on one of the compression spring 8th opposite end of the control piston 5 a non-illustrated contact point between a plunger of the pressure magnet and the control piston 5 present, which the actuating forces of the pressure magnet on the control piston 5 transmits in a known manner. For better power transmission between electromagnetic device 10 and control piston 5 , can in the control piston 5 a not visible here starting piece are used, which reduces friction and wear, which is caused by the fact that the electromagnetic device 10 motor-stationary and the control piston 5 with the camshaft 2 rotates.

The with the electromagnetic device 10 over the control piston 5 controllable actuating unit 4 has one the camshaft 2 enclosing at its end, sleeve-shaped housing 11 , On the electromagnetic device 10 facing side of the housing 11 is a disc-shaped lid 12 with a central recess for the inner body 14 and on the electromagnetic device 10 opposite side of the housing 11 is one on the camshaft 2 rotatably mounted outer body 13 arranged. The lid 12 , the case 11 and the outer body 13 include an annulus in which an inner body formed as an impeller 14 is arranged. The inner body 14 is non-rotatable on the camshaft 2 attached. The attachment may be material, force and / or positive, such as by thermal joining, pressing, hydroforming or by means of other joining methods. The lid 12 , the case 11 and the outer body 13 are over in the axial direction extending clamping screws 15 clamped and form one on the inner body 14 or the camshaft 2 rotatably mounted unit. The inner body 14 is the rotatable on the camshaft 2 mounted outer body 13 assigned to the teeth on its outer circumference 16 over which the camshaft 2 is driven by the crankshaft, not shown here, the indicated engine. Instead of the here indicated and addressed chain drive can of course occur other drive connections, such as toothed belt drives or gear drives.

The camshaft adjuster 1 has a hydraulically actuable locking mechanism 17 from bolts 17a and compression spring 17b on, by axial movement of the bolt 17a a firm connection between inner body 14 and lid 12 and / or outer body 13 manufactures. This connection is made by the targeted admission of the camshaft adjuster 1 solved with pressure medium and released an adjustment.

According to 2 shows the case 11 Distributed over its circumference radially inwardly projecting actuating means in the form of piston wings 18 on, those on the part of the impeller 14 as adjusting means counter-wings 19 are assigned, with two counter wings 19 a recording room 20 in the form of a ring sector, in which a piston wing 18 of housing 11 lies, with the housing 11 with its associated piston wings 18 almost a wing rotor forms, opposite the impeller 14 is adjustable over an angular range, which through the counter-wings 18 a recording room 20 is limited.

Within the respective recording room 20 limit piston wings 18 and counter wings 19 two working chambers each 21 and 22 , which are hydraulically acted upon, controlled by the control valve 3 ,

To the torque of the crankshaft to the camshaft 2 To be able to transfer is, as already mentioned, the inner body 14 of the camshaft adjuster 1 rotatably with the camshaft 2 connected. The drive torque is through the outer body 13 in the camshaft adjuster 1 introduced and over the working chambers 21 . 22 on the inner body 14 transfer. The supply of pressure medium to the respective working chamber 21 . 22 takes place from the camshaft 2 via the control valve 3 ,

To the function of the camshaft adjuster 1 To improve and allow higher speeds, according to the invention in addition to the control valve 3 an oil guide module 23 in the camshaft 2 inserted, which is the control valve 3 upstream and for guiding the hydraulic medium from the camshaft 2 in the control valve 3 serves. The inner 40 the camshaft 2 is via a radial bore 41 in the camshaft 2 supplied by a not shown, arranged in a camshaft bearing pressure medium supply point with pressure medium. In this case, the pressure medium directly into the camshaft 2 enter or as in 1 represented by axial channels 42 or ring channels to the interior 40 the camshaft 2 to get redirected. Starting from the inside 40 the camshaft 2 introduces in the oil guide module 23 arranged axial channel 24 to a radial bore 25 , which in an annulus or a groove 26 opens, the or between oil guide module 23 and camshaft 2 and between guide sleeve 6 and camshaft 2 lies. In the axial channel 24 of the oil guiding module 23 is a check valve 27 introduced, the backflow of pressure medium in the camshaft 2 prevented. Furthermore, the oil guide module 23 record an oil filter, not shown here, to the pressure medium before being fed into the valve 3 to filter. About the annulus or the groove 26 the hydraulic fluid enters a radial bore 28 in the camshaft 2 is introduced. From the radial bore 28 the hydraulic fluid passes through a groove 29 in a radial guide 30 in the camshaft 2 , From the radial guidance 30 from the hydraulic fluid enters the control valve 3 to there according to the regulatory requirements, the respective working chambers 21 . 22 of the camshaft adjuster 1 to supply as needed. The hydraulic fluid then becomes within the control valve 3 over in the control piston 5 arranged holes 39 derived to the outside.

By a variation of the pressure medium filling of the working chambers 21 . 22 is the phase relationship between outer body 13 of the camshaft adjuster 1 and camshaft 2 adjustable. The control valve 3 determined with the location of its spool 5 in the guide sleeve 6 the pressure medium supply to the camshaft adjuster 1 and thus the phase position or its change. The control piston is positioned 5 by the balance between the force of the compression spring 8th and the opposite magnetic force of the electromagnetic device 10 ,

In a further embodiment of the invention, the camshaft protrudes 2 on the outer body 13 opposite side of the camshaft adjuster 1 out in an additional depository 46 according to 3 to lie or a pulse wheel 47 according to 4 to 6 which is the angular position of the camshaft 2 maps. The between electromagnetic device 10 and camshaft adjuster 1 arranged additional depository 46 can also by the pressure oil supply of the control valve 3 be supplied with lubricant by the control valve 3 is extended accordingly. For example, according to 4 the axial channel 48 via the pressure oil supply of the control valve 3 axially extended by a further radial bore 43 in the camshaft 2 in another annulus or axial channel 44 to kick, in turn, through radial holes 45 in the camshaft 2 the camshaft bearing 46 supplied with hydraulic fluid. Furthermore, the supply of the camp 46 with lubricant also by one of the supply of the control valve 3 separate pressure medium line done.

In a further embodiment of the invention according to the 4 to 6 can on the groove 29 in the inner body 14 also be waived by the pressure medium from the oil guide module 23 over a groove 48 in the guide sleeve 6 to the control valve 3 arrives.

To the camshaft adjuster 1 to bring in a defined intermediate position (emergency position) in the unpressurized state is according to 5 and 6 a return spring 49 provided on the inner body 14 is arranged. The return spring 49 is on the one hand with the inner body 14 and on the other hand with the lid 12 connected. Generally, the return spring 49 both outside as in the present embodiment and within the camshaft adjuster 1 be arranged. The return spring 49 on the one hand with the inner body 14 of the camshaft adjuster 1 , the camshaft 2 , the control valve 3 or the pulse wheel 47 and on the other hand with the lid 12 , the housing 11 or the outer body 13 of the camshaft actuator 1 be connected against rotation.

In a further embodiment according to 6 are the guide sleeve 6 of the control valve 3 and the oil guide module 23 formed into a one-piece component.

Claims (9)

Camshaft adjuster for an internal combustion engine with one in a camshaft ( 2 ) inserted control valve ( 3 ), one in a guide sleeve ( 6 ) guided hydraulic control piston ( 5 ), with which an actuating unit ( 4 ) for the angular adjustment of the camshaft ( 2 ) is controllable, wherein the actuating unit ( 4 ) one with the camshaft ( 2 ) rotatably connected inner body ( 14 ) and one to the camshaft ( 2 ) rotatably mounted outer body ( 13 ) via which a drive connection from a crankshaft to the camshaft ( 2 ), wherein the control valve ( 3 ) from an electromagnetic device ( 10 ) and via the camshaft ( 2 ) is supplied with hydraulic medium, wherein in the camshaft ( 2 ) additionally an oil guide module ( 23 ), which at least for guiding the hydraulic medium between the camshaft ( 2 ) and control valve ( 3 ), characterized in that the oil guide module ( 23 ) additionally as a cover for the control valve ( 3 ) is formed, which both for sealing the control valve ( 3 ) relative to the camshaft ( 2 ) as well as for receiving a compression spring ( 8th ) serves. Camshaft adjuster according to claim 1, characterized in that the oil guide module ( 23 ) in addition to receiving other components ( 27 ) serves. Camshaft adjuster according to one of the preceding claims, characterized in that a pulse wheel ( 47 ) is provided which on the inner body ( 14 ) of the camshaft adjuster ( 1 ), on the control valve ( 3 ) or on the camshaft ( 2 ) is attached. Camshaft adjuster according to one of the preceding claims, characterized in that the camshaft adjuster ( 1 ) with a return spring ( 49 ), which inside or outside of the camshaft actuator ( 1 ) is arranged. Camshaft adjuster according to claim 4, characterized in that the return spring ( 49 ) on the one hand with the inner body ( 14 ) of the camshaft adjuster ( 1 ), the control valve ( 3 ) or the impulse wheel ( 47 ) and on the other hand with a lid ( 12 ), a housing ( 11 ) or the outer body ( 13 ) of the camshaft actuator ( 1 ) is connected against rotation. Camshaft adjuster according to one of the preceding claims, characterized in that the guide sleeve ( 6 ) and the oil guide module ( 23 ) are formed into a one-piece component. Camshaft adjuster according to one of the preceding claims, characterized in that the camshaft adjuster ( 1 ) a hydraulikmittelbeaufschlagte locking mechanism ( 17 ), which via the control valve ( 3 ) Can be acted upon with hydraulic fluid. Camshaft adjuster according to one of the preceding claims, characterized in that the rotationally fixed connection of the camshaft actuator ( 1 ) with the camshaft ( 2 ) by means of joining with oversize, gluing, welding or pressing, in particular pressing on the knurled camshaft ( 2 ), he follows. Camshaft adjuster according to one of the preceding claims, characterized in that a hydraulic fluid supply between a camshaft actuator ( 1 ) and electromagnetic device ( 10 ) arranged camshaft bearing ( 46 ) via the oil supply of the control valve ( 3 ) is provided.

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