DE102004043182A1 - Switching cam follower especially for IC engine has inner and outer levers on a coaxial mounting and with a hydraulic control and a cam follower roller - Google Patents

Abstract

A switching cam follower design especially for controlling the valves in an IC engine has an outer lever (2) between whose arms (3, 4) is mounted an inner lever (5) with a common axis for the levers. The inner lever is aligned on a sprung mounting (10) and supports a roller (11) as a cam follower. The inner lever has a separate sleeve (12) with the axial bore (7) with the spring movement limited by stops to prevent blocking.

Description

Territory of invention

The The invention relates to a switchable cam follower of a valve train an internal combustion engine, with an outside lever, between its arms a relative to this movable inner lever runs, which Lever each one in a relative position aligned transverse bore have, in at least one of which at least one slide as a coupling agent runs, the one way over the force of one or more springs such as helical compression springs also for a coupling case of the lever over a dividing surface is displaced between them and where on the inner lever a Role as a cam counter-rotor is applied, the axial line with an axial line of the transverse bore coincident on the inner lever.

background the invention

One Such drag lever goes out of the regarded as generic U.S. 6,502,536 B2. The disadvantage of this is that its Slider as coupling agent over an elaborate one external loading be relocated. This unnecessarily increases the Required space in the cylinder head area. On the other hand it comes to a Relative movement between the external urging means and an outer end face the slider in the outer lever. In addition, the lateral force application proves in the lever on the external loading means unfavorable.

Also the person skilled in the said citation can be deduced that no Path limitation for the slider package in the compression direction of the spring as return means is provided. Because of this missing path limitation it can in the worst case Case come that the spring is pressed on block. This leads in the course the time for them to sit down and thus lose their power.

To the others are clear from the cited document that the transverse bore in the inner lever for its slide consuming is graded. This increases the production cost. At the same time it can be seen that both slides in a directly applied in the corresponding lever transverse bore run. Thus, must Finishing work for the cross holes be made directly on the lever parts.

Task of invention

task The invention is therefore a switchable drag lever of the aforementioned To create kind, with which the indicated disadvantages with simple Funds are eliminated.

Solution of task

According to the invention this Task solved by that the inner lever has a separate socket in which the Transverse bore runs, whose both ends are part of the interface, wherein the spring associated with means for limiting its deflection are designed so that their blocking position is prevented and where the sliders over internally directed hydraulic fluid against the force of the spring are relocatable.

hereby the cited disadvantages are effectively eliminated. Of the Drag lever experiences a internal guidance of hydraulic fluid to relocate its valves in at least one direction; preferably from a head of a support element, on which the rocker arm is mounted at one end. The above Space problem in the cylinder head no longer occurs. On the other hand The internal guidance of the hydraulic fluid means that there are no lateral forces introduced into the drag lever.

Preferably should the cross holes for the Slider as at least largely unestimated through holes be made. Thus, you can These are manufactured inexpensively in one operation.

It is provided according to the invention, the slides are not directly in cross bores of the corresponding lever parts to let go. Therefor Bushings are proposed that with their outer sheath in corresponding Recordings of the lever parts, for example, are pressed.

Of others are stops for the first slider provided in the inner lever, in the compression direction the compression spring act and prevent their blocking position easy.

Though should claim according to the inner lever with a role may be provided as a cam starting means, optionally can but also on the outside lever rollers as a cam counter-rotor be applied or only on the outer lever.

In addition, it is conceivable and provided, the axial lines of the coupling means outside the axial line to arrange the roller in the inner lever as a cam counter-rotor.

When Coupling agent comes according to the requirements a slider package, consisting of two or three sliders, in question. It is clear that unpressurized locked and unlocked variants equally from Protected area of the invention are included.

to simple instruction of the hydraulic fluid before the second slide in one of the arms of the outer lever is proposed a simply constructed socket, in the transverse bore the second slide runs. This socket has an end pressure chamber for hydraulic fluid, which communicates with a path to the supply line. This path is expediently on an outer jacket of the Poor, who owns the socket. He can be exalted However, an embodiment is conceivable in which the Path more or less in the arm runs directly and out of the support element fed end.

According to one advantageous embodiment of the invention is intended in both ends of the Transverse bore of the sleeve of the inner lever per a piece of pipe to be attached. Between these pieces of pipe extends the first slider with a ring extension and thus experiences facing inner end faces of the pipe sections a simple stop. The pipe pieces are expediently in the previously smooth bore of the inner lever, for example pressed.

at The above-mentioned embodiment is as a means of limiting the Spring deflection in the other arm of the outer lever another socket Pressed to the first slide in the coupling case with his facing forehead experiences a simple stop. The way of the first slider to the socket is dimensioned so that the spring is not on block goes, which, as mentioned, their setting is prevented.

According to one Another embodiment of the invention, it is provided, the first Sliders in turn to provide a ring extension. however has its socket in the inner lever facing away from the second slider Page a diameter reduction, in the bore of the slider runs.

At this reduction in diameter according to the invention should be the spring support one end, wherein she works against the ring extension at the other end. The ring expansion communicates with attacks here in the transverse bore of the bush to prevent the spring from setting.

Finally is a drag lever with three sliders suggested which slide in completely smooth cross holes of separate sockets of the corresponding Lever should run. Again, there is an internal control for the Hydraulic means provided as aforesaid, the third slide axially outside acted upon by the spring and thus the entire slider package at not applied pressure to hydraulic fluid in the coupling direction shifts.

Of the third slider has in the last-mentioned embodiment of the invention an approach towards a bottom of his socket, which approach when decoupling of the slide at the bottom of the socket is present, without the corresponding spring has reached its blocking position.

Of the The scope of this invention is particularly applicable to switchable drag lever systems the principle lever-in-lever (or lever next-lever) related. at These systems are common (with the exception of a fork-like outer with an inner lever one end mounted on a common axis. However, the proposed measures also be used on switchable oscillating lever systems or the like. Application.

Short description the drawing

The Invention is suitably closer to the drawing explained. Show it:

The 1 - 3 depending on a cross section through a drag lever in the region of its slide as coupling means with different variants of the design of the coupling region.

Full Description of the drawing

The figures reveal cross sections through switchable drag levers 1 in the area of their slide closer explained below 8th . 9 ( 1 . 2 ) respectively 8th . 9 . 44 ( 3 ).

The rocker arm 1 has an outside lever 2 between his arms 3 . 4 a relative to this pivotable inner lever 5 runs. in a pivoting position of the lever 2 . 5 to each other, preferably in the cam base circle, aligned transverse bores 6 . 7 this lever 2 . 5 to each other. The inner lever 5 also has a role 11 for a start-up of a lift cam. The outside lever 2 may also have contact surfaces for lifting cams on its upper side, which lift cams, however, have a different stroke course than the cam, which the inner lever 5 applied. For example, the inner lever 5 acting Hubnocken be a low-lift cams, whereas the outer lever 2 contact lifting cam are Großhubnocken.

Furthermore, it can be seen that in the inner lever 5 a socket 12 runs. This has a cross hole 6 for a first slide 8th , Both ends 13 . 14 the socket 12 are part of a division between the arms 3 . 4 ,

In the socket 12 are both ends separate pieces of pipe 21 . 22 Pressed in which the slide 8th immediately. Between inside front sides 23 . 24 the pipe pieces 21 . 22 has the slider 8th a ring extension 25 , On a forehead 27 the ring extension 25 At one end, a spring acts 10 , This is at the other end on the inside front side 23 of the pipe section 21 supported. The slider 8th is thus in the Entkoppelrichtung on the spring 10 applied.

In the arm 4 of the outer lever 2 is a jack 16 arranged, which the transverse bore 7 for the second slider 9 Has. The socket 16 has an upstream pressure chamber 19 for the supply of hydraulic fluid. This pressure room 19 is with a path 20 in fluid communication, which preferably on the outer jacket of the corresponding arm 4 runs and from a support element, not shown, for the rocker arm 1 is fed.

In the other arm 3 of the outer lever 2 is in its transverse bore 7 a ring stop 28 pressed. If a coupling is to be brought about in the case of a basic circuit passage of the acting cam, then the slider package becomes 8th . 9 through in the pressure room 19 adjacent hydraulic fluid pressure against the force of the spring 10 as far postponed that both slides 8th . 9 over the interface between the arms 3 . 4 are shifted in sections and the first slide 8th with his forehead 30 in contact with the ring stop 28 is.

The ring stop 28 is as a means 15 to limit a deflection of the spring 10 educated. As can be seen, goes at stop position of the slider 8th its spring 10 not on block. As a result, their setting is simply prevented.

2 discloses a similar embodiment as 1 , However, in the cross hole 7 of the arm 3 no ring stop installed as mentioned above. Also it can be seen that only one piece of pipe 31 on the side of the second slider 9 in the cross hole 6 of the inner lever 5 is provided.

The first slider 8th again has a ring expansion 37 with a gradation 38 , Should over in the pressure room 19 applied hydraulic fluid pressure a coupling be brought about, so is a forehead 41 the ring extension 37 a stop on a forehead 39 a middle stage 33 in the cross hole 6 Find. The feather 10 in turn is at one end to an inner end face 34 a reduction in diameter 35 the transverse bore 6 supported, in which diameter reduction 35 the first slider 8th one evening. At the other end, the spring acts 10 against a front side 42 the gradation 38 ,

Alternatively to the aforementioned variants are according to 3 a total of three slides 8th . 9 . 44 intended. The third slide is running 44 in a socket 29 of one arm 3 of the outer lever 2 , Shown is the coupling state on the rocker arm 1 about the power of the spring 10 if there is no pressure applied to hydraulic fluid in the pressure chamber 19 in front of the second slider 9 ,

The third slider 44 has towards a reason 45 his socket 29 an approach 47 , which sections in the spring 10 protrudes. This in turn is on the one hand at the bottom 45 and on the other hand on an end face 46 of the slider 44 supported.

For reliable definition of the decoupling position suggests in the embodiment 3 the approach 47 of the slider 44 at the bottom 45 the socket 29 at. The approach 47 has a longer length than the block length of the spring 10 , so that their blocking position is prevented.

Instead of the graphically illustrated a coil spring as a spring 10 can also be several packet-like nested springs 10 , also conical geometry, be provided.

1

cam follower

2

external lever

3

poor

4

poor

5

internal lever

6

cross hole

7

cross hole

8th

first pusher

9

second pusher

10

feather

11

role

12

Rifle

13

front

14

front

15

medium

16

Rifle

17

face

18

forehead

19

pressure chamber

20

path

21

pipe section

22

pipe section

23

Inside front side

24

Inside front side

25

ring expansion

26

forehead

27

forehead

28

annular stop

29

Rifle

30

forehead

31

pipe section

32

drilling

33

middle step

34

Inside front side

35

Diameter reduction

36

forehead

37

ring expansion

38

gradation

39

forehead

40

attack

41

forehead

42

front

43

Inside front side

44

third pusher

45

reason

46

face

47

approach

Claims (11)

Switchable drag lever ( 1 ) of a valve train of an internal combustion engine, with an external lever ( 2 ), between its arms ( 3 . 4 ) a relative to this movable inner lever ( 5 ), which levers ( 2 . 5 ) one each in a relative position aligned transverse bore ( 6 . 7 ), in at least one of which at least one slide ( 8th . 9 ) extends as a coupling means in one direction via the force of one or more springs ( 10 ) such as helical compression springs and for a coupling case of the lever ( 2 . 5 ) is displaceable over a separation surface between them and wherein on the inner lever ( 5 ) a role ( 11 ) is applied as a cam counter-rotor whose axial line with an axial line of the transverse bore ( 7 ) on the inner lever ( 5 ) coincides, characterized in that the inner lever ( 5 ) a separate socket ( 12 ), in which the transverse bore ( 7 ) whose two-sided end faces ( 13 . 14 ) Are part of the interface, the spring ( 10 ) Medium ( 15 ) are assigned to limit their deflection, which are designed such that their blocking position is prevented and wherein the slide ( 8th . 9 ) via internally directed hydraulic fluid against the force of the spring ( 10 ) are relocatable. Cam follower according to claim 1, characterized in that a first and second slide ( 8th . 9 ) are provided for coupling, which first slide ( 8th ) in the decoupling case exactly between the forehead pages ( 13 . 14 ) of the socket ( 12 ), wherein the second slider ( 9 ) in a separate socket ( 16 ) one of the arms of the outer lever ( 2 ), which separate socket ( 16 ) the transverse bore ( 7 ) for the second slider ( 9 ) is immanent, as well as with its axially inner end face ( 17 ) in the decoupling case directly at the separating surface ( 14 ), on a forehead ( 18 ) of the first slider ( 8th ) directly adjacent, runs and wherein in the socket ( 16 ) axially outside a pressure chamber ( 19 ) is formed for the hydraulic medium, which via a separate, on an outer side of the one arm ( 4 ) applied path ( 20 ) into the pressure chamber ( 19 ) is conductive. Drag lever according to claim 2, characterized in that the transverse bore ( 6 ) of the socket ( 12 ) of the inner lever ( 5 ) completely or largely completely smooth surface is shown. Drag lever according to claim 3, characterized in that in both ends of the transverse bore ( 6 ) of the socket ( 12 ) of the inner lever ( 5 ) one pipe piece each ( 21 . 22 ) is fixed, in whose bores the first slide ( 8th ) immediately, wherein the first slider ( 8th ) one between inner end faces ( 23 . 24 ) of the pipe sections ( 21 . 22 ) running ring extension ( 25 ), who with her one forehead ( 26 ) in the uncoupling state on the inner front side ( 24 ) of the second slider ( 9 ) facing pipe section ( 22 ) abuts, wherein on another forehead ( 27 ) of the ring extension ( 25 ) the first slide ( 8th ) enclosing spring ( 10 ), which at the other end at the inner end face ( 23 ) of the second slider ( 9 ) facing away from the tube ( 21 ) ( 1 ). Drag lever according to claim 4, characterized in that in the other arm ( 3 ) of the outer lever ( 2 ) another socket ( 29 ) with the transverse bore ( 7 ) is arranged, in which transverse bore ( 7 ) the first slider ( 8th ) is displaceable in sections in the coupling case, wherein in the transverse bore ( 7 ) of the further socket ( 29 ) a ring stop ( 28 ) axially outwardly as means ( 15 ) for limiting the deflection of the spring ( 10 ) for a facing forehead ( 30 ) of the first slider ( 8th ) runs. Drag lever according to claim 2, characterized in that in the second slide ( 9 ) facing end of the transverse bore ( 6 ) of the socket ( 12 ) of the inner lever ( 5 ) a piece of pipe ( 31 ), in the bore ( 32 ) the first slider ( 8th ), wherein the transverse bore ( 6 ) towards her second slider ( 9 ) turned away end in a diameter reduction ( 35 ), in which the first slider ( 8th ), wherein the first slider ( 8th ) one between an inner end face ( 34 ) of the pipe section ( 31 ) and the diameter reduction running ring extension ( 37 ), who with her one forehead ( 36 ) in the uncoupling state on the inner front side ( 34 ) of the pipe section ( 31 ) abuts, wherein on an opposite end face ( 42 ) of the ring extension ( 37 ) the first slide ( 8th ) enclosing spring ( 10 ) indirectly, which is at the other end on an inner front side ( 43 ) of diameter reduction ( 35 ) ( 2 ). Drag lever according to claim 6, characterized in that in the transverse bore ( 7 ) of the other arm ( 3 ) of the outer lever ( 2 ) or in a bore of a bush arranged there, the first slider ( 8th ) is displaceable in sections in the coupling case, wherein the transverse bore ( 6 ) of the socket ( 12 ) of the inner lever ( 5 ) another middle stage ( 33 ) whose diameter between the diameter of the transverse bore ( 6 ) on the pipe section ( 32 ) and diameter reduction ( 33 ) and in whose section the spring ( 10 ) and the ring extension ( 37 ) of the first slider ( 8th ) with a gradation ( 38 ), whereby at one between the middle stage ( 33 ) and the transverse bore ( 6 ) on the pipe section ( 31 ) lying forehead ( 39 ) an attack ( 40 ) for another forehead ( 41 ) of the ring extension ( 37 ) in the transitional area to its grading ( 38 ) as a means ( 15 ) for limiting the deflection of the spring ( 10 ) is formed. Cam follower according to claim 1, characterized in that a first, second and third slide ( 8th . 9 . 44 ) are provided for coupling, which first slide ( 8th ) in the decoupling case exactly between end faces ( 13 . 14 ) of the socket ( 12 ), wherein the second and third slides ( 9 . 44 ) in a separate socket ( 16 . 29 ) one of the arms ( 4 . 3 ) of the outer lever ( 2 ) in which sockets ( 16 . 29 ) the transverse bores ( 7 ) for the second and third slides ( 9 . 44 ) and with their axially inner faces ( 17 . 45 ) in the decoupling case directly on the separating surface, on a respective forehead ( 18 . 30 ) of the first slider ( 8th ), wherein in the socket ( 16 ) of the second slider ( 9 ) axially outside a pressure chamber ( 19 ) is formed for the hydraulic medium, which via a separate, on an outer side of the one arm ( 4 ) applied path ( 20 ) into the pressure chamber ( 19 ) is conductive ( 3 ). Drag lever according to claim 8, characterized in that the transverse bores ( 6 . 7 ) of all sockets ( 12 . 16 . 29 ) are shown completely or largely completely smooth surface. Drag lever according to claim 9, characterized in that the third slide ( 44 ) axially from the outside of the spring ( 10 ) is applied, so that in the pressure chamber ( 19 ) of the second slider ( 9 ) non-applied pressure on hydraulic means the third and first slide ( 44 . 8th ) across the interface across the force of the spring ( 10 ) are shifted in a packet. Drag lever according to claim 10, characterized in that the spring ( 10 ) of the third slide ( 44 ) at one end at a reason ( 45 ) whose socket ( 29 ) and at the other end on an axially outer end face ( 46 ) of the third slide ( 44 ) is supported, wherein from this axially outer end face ( 46 ) an approach ( 47 ) as a means ( 15 ) for limiting the deflection of the spring ( 10 ) towards the ground ( 45 ) and sections by the spring ( 10 ), soft approach ( 47 ) of a smaller diameter than the third slider ( 44 ) and a length greater than a block length of the spring ( 10 ) owns.