DE102006023772A1 - Switchable drag lever for a valve train of an internal combustion engine - Google Patents

Abstract

Proposed is a switchable drag lever (1) for a valve train of an internal combustion engine, with an outer and an inner lever (2, 3), which are mounted on a common axis (4). On a lower side (5) of the outer lever (2) on the one hand a system (6) for a gas exchange valve and on the other hand a complementary surface (7) for a support element is applied. The swiveling in the decoupling inner lever (3, 2) has a Nockenanlauffläche (8). In a continuous longitudinal bore (9) of the outer lever (2) above the complementary surface (7), an annular piston is arranged as a coupling means (10) for the coupling case in sections with a cam surface (11) of the inner lever (3) is engageable. The coupling means (10) is provided on its remote forehead (11a) with a bore (12) in which a cylindrical projection (13) via a simple snap ring connection (21) is attached. The projection (13) is guided through an opening (14) in the longitudinal bore (9) fixed stop bushing (15) and behind the outer end (16) end provided with an annular collar (17). Between the coupling remote end (11a) of the coupling means (10) and an inner end (18) of the stop bushing (15) hydraulic means as a first biasing means (19) for displacing the coupling means (10) in the coupling direction can be introduced. Between the outer end (16) of the stop bush (15) and the annular collar (17) of the projection (13) is a compression spring means as a second ...

Description

Territory of invention

The The invention relates to a switchable rocker arm for a Valve gear of an internal combustion engine, with an outside and an inner lever which is mounted on a common axle as well are pivotally movable relative to each other, wherein at a bottom the towing lever on the one hand a system for a gas exchange valve and on the other hand, a complementary surface for a support element is applied, wherein at least the decoupling in the decoupling Lever a cam contact surface has, wherein in a continuous longitudinal bore of the lever a ring or stepped piston is arranged as coupling means, the for the Coupling case in sections with a driver surface of the other lever can be brought into engagement, which coupling agent at its koppelfernen Forehead is provided with a bore, out of which a cylindrical Approach extending through an opening in the longitudinal bore fixed stop bushing out and behind their outer forehead end provided with a ring collar.

background the invention

A switchable drag lever with the aforementioned coupling device goes out of the class considered as generic DE 10 2004 039 503 A1 out. The Radialspreizmittel shown there for connecting the approach with a ring expansion of a bore of his coupling piston proves to be extremely expensive. Here are several operations and special tools required to make the aforementioned reliable connection. In sum, the coupling unit thus proves to be relatively expensive, with problematic process reliability.

Task of invention

task The invention is therefore a switchable drag lever of the aforementioned To create a way in which the cited disadvantages are eliminated.

Solution of task

According to the invention this Problem solved by the novel features of claim 1, with expedient concretions The invention is the subject of the dependent claims, which also independently protectable measures can be immanent.

By the thus proposed simple Rastier snap connection for Coupling of the piston with the cylindrical approach are the above Disadvantages eliminated. In this connection is expediently on a simple mass-produced item like a circlip (snap ring etc.) resorted in the connection case, on the one hand, in a groove on the outer jacket the cylindrical approach and on the other hand in an annular groove of the Bore of the piston for coupling is seated.

the Professional offer at this point also Rastier snap connections as well as such over spring-loaded balls, wedges, etc., the radial (relative to the axial line the piston) are biased and in a corresponding counter surface on each grab another component. Possibly. In this area, an adhesive, Soldering or welding connection or the like can be applied.

Appropriately it should be to represent the cylindrical approach of solid material. Here can be used on a lightweight material, but also on a "classic" steel material become. When training solid material is in the case of installation with the least To calculate deformations. Alternatively, however, the approach can be hollow cylindrical, therefore as thin-walled Pipe part or the like can be produced.

Preferably should the approach in the region of the coupling piston end facing away be provided with a widening this ring collar, to which expediently at one end a compression spring is supported as a second urging means.

Of the Drag lever can be present as a changeover or shutdown lever, at least in its interpretation as a shut-off of the swiveling in the coupling case Inner lever with a roller bearing roller is provided.

Becomes, as it is the subject of another subclaim, the bore shown in the coupling means as a blind hole, this coupling agent is particularly stiff. Possibly. The coupling agent can also be formed like a tube be.

One further subclaim relates to an appropriate training and arrangement the plant and complementary area. Therefore can the aforementioned components on the underside of the outer lever be arranged, wherein the axis run in the area of the plant and the inner lever of arms of the outer lever to be enclosed can.

In concretization of the invention, it is stated that the longitudinal bore for the coupling device should extend above the complementary surface for the support element. Thus, a so-called "longitudinal locking" is applied here, in the rela tively simple and short way hydraulic means for the displacement of the coupling means in at least one direction (for example, coupling direction) can be derived.

A shift back of the coupling agent can over the power of a compression spring can be realized, the one end on an outer forehead or a bottom of a blind hole of the stop bushing is supported, which Socket firmly in the longitudinal bore for the Coupling sits. At the other end is the compression spring on the aforementioned Ring collar on.

It is also conceivable and provided, the coupling means in both displacement directions hydraulically or in at least one direction of displacement electromagnetic, magnetic or the like to relocate.

In Training is a determination of an end position of the coupling means in the coupling case over provided the ring collar. Thus, attacks on the coupling side in the area the driving surface omitted become.

Short description the drawing

The Invention is suitably closer to the drawing explained.

It demonstrate:

1 a longitudinal section through a switchable rocker arm and the

2 the coupling region of the aforementioned finger lever.

Full Description of the drawing

Shown is a switchable drag lever 1 for a valve train of an internal combustion engine. This consists of a top view in box-like outer lever 2 , the one inside lever 3 includes. Both levers 2 . 3 are in the range of an end 26 on a common axis 4 stored. The inner lever 3 has on its top also a roller bearing roller as Nockenanlauffläche 8th for a lift cam.

At a bottom 5 of the outer lever 2 is at one end 26 a plant 6 generated for a gas exchange valve. On the other end 27 runs at the bottom 5 a complementary area 7 for storage on a head of a support element. From this complementary area 7 go a short channel 29 for hydraulic means, of a here oblique longitudinal bore 9 cuts.

The aforementioned longitudinal bore 9 is shown as a through hole. In this runs, as well 2 discloses a closer, a piston 10 as coupling agent. This is according to 1 in its coupling position under a driver surface 11 an outer forehead 28 the swing-away inner lever 3 relocated.

The coupling agent 10 has on his remote forehead 11a a bore formed here as a blind bore 12 , In this is an annular groove 23 brought in. In the ring groove 23 sections of a snap ring runs 22 as part of a Rastier- snap connection 21 , This snap ring 22 sits radially inward in a groove 25 an outer jacket 24 a fully cylindrical approach here 13 , Thus, via the locking snap connection 21 an extremely simple and reliable connection of the coupling agent 10 with the approach 13 created.

The approach 13 is axially behind the remote forehead 11a through an opening 14 a stop bush 15 guided. The stop bush 15 in turn sits firmly in the longitudinal bore 9 , This is the approach 13 axially behind an outer forehead 16 the stop bush 15 in a plate-like ring collar 17 above. As 1 disclosed in more detail, is the ring collar 17 in the coupling case directly on a face 32 of the outer lever 2 on the other end 27 at. Thus, a coupling position of the coupling means is very simple 10 certainly.

A shift of the packet coupling agent 10 /Approach 13 in the coupling direction is accomplished via hydraulic medium pressure. The hydraulic fluid is via the aforementioned channel 29 in an annulus 30 between the remote forehead 11a of the coupling agent 10 and the inner forehead 18 the stop bush 15 be conducted. This coupling agent thus serves as the first Beaufschlagungsmittel 19 ,

As second pressurizing agent 20 serves the 2 resulting pressure spring 20 , This is between the ring collar 17 and a reason of a blind hole 31 on the side of the outer forehead 16 the stop bush 15 clamped. A shift of the coupling agent 10 in the coupling case thus takes place in the annulus 30 initiated hydraulic fluid. A shift back, with hydraulic fluid pressure off, via the force of the second biasing means (compression spring).

Because of the 1 resulting "oblique" arrangement of the longitudinal bore 9 height is saved.

1

cam follower

2

external lever

3

internal lever

4

axis

5

bottom

6

investment

7

complementary surface

8th

Cam contacting surface

9

longitudinal bore

10

coupling means

11

entraining

11a

paddock distant forehead

12

drilling

13

approach

14

opening

15

stop bush

16

outer end

17

gorget

18

interior forehead

19

first biasing

20

second biasing

21

Rastier-snap

22

snap ring

23

ring groove

24

outer sheath

25

puncture

26

one The End

27

other The End

28

outer end

29

channel

30

annulus

31

blind

32

face

Claims (9)

Switchable drag lever ( 1 ) for a valve train of an internal combustion engine, with an outer and an inner lever ( 2 . 3 ) on a common axis ( 4 ) and are pivotable relative to each other, wherein at a bottom ( 5 ) of the rocker arm ( 1 ) on the one hand a plant ( 6 ) for a gas exchange valve and on the other hand a complementary surface ( 7 ) is applied for a support element, wherein at least the pivoting down in the decoupling lever ( 3 . 2 ) a cam contact surface ( 8th ), wherein in a continuous longitudinal bore ( 9 ) one of the levers ( 2 . 3 ) a ring or stepped piston as coupling agent ( 10 ) is arranged, which for the coupling case in sections with a driver surface ( 11 ) of the other lever ( 3 . 2 ), which coupling agent ( 10 ) on his coupling remote forehead ( 11a ) with a bore ( 12 ), out of which a cylindrical projection ( 13 ) which passes through an opening ( 14 ) one in the longitudinal bore ( 9 ) fixed stop bushing ( 15 ) and behind their outer forehead ( 16 ) end with a ring collar ( 17 ), between the remote forehead ( 11a ) of the coupling agent ( 10 ) and an inner forehead ( 18 ) the stop bushing ( 15 ) a first loading means ( 19 ) for the displacement of the coupling agent ( 10 ) in the coupling direction and between the outer front ( 16 ) the stop bushing ( 15 ) and the ring collar ( 17 ) of the approach ( 13 ) a second loading means ( 20 ) for the displacement of the coupling agent ( 10 ) in the decoupling direction and wherein the approach ( 13 ) via a snap-in locking connection ( 21 ) in the hole ( 12 ) of the coupling agent ( 10 ) is attached. Drag lever according to claim 1, wherein for the representation of the Rastier snap connection ( 21 ) at least one securing element such as a snap ring ( 22 ) is provided, on the one hand in an annular groove ( 23 ) on the outer jacket ( 24 ) of the cylindrical approach ( 13 ) and on the other hand in a puncture ( 25 ) of the bore ( 12 ) of the coupling agent ( 10 ) sits. Drag lever according to claim 1, wherein for the representation of the Rastier snap connection ( 21 ) at least one element is provided, such as a ball / a wedge, which is in a radial bore of the one component (bore ( 12 ) of the coupling agent ( 10 ) / Outer jacket ( 24 ) of the cylindrical approach ( 13 )) and out of this towards the other component ( 13 . 10 ) is acted upon by a spring means and in sections in a complementary indentation of the other component ( 13 . 10 ) sits. Cam follower according to claim 1, wherein the bore ( 12 ) in the coupling agent ( 10 ) is shown as a blind hole. Cam follower according to claim 1, wherein the cylindrical projection ( 13 ) is either tubular or fully cylindrical. Drag lever according to claim 1, wherein the inner lever ( 3 ) is designed as the decoupling in the decoupling lever, wherein at the bottom ( 5 ) of the outer lever ( 2 ) at one end ( 26 ) the attachment ( 6 ) for the gas exchange valve and at the other end ( 27 ) the complementary area ( 7 ) is arranged for the support element, wherein above the complementary surface ( 7 ) (from the bottom ( 5 ) seen from) the longitudinal bore ( 9 ) with the coupling agent ( 10 ), which for the coupling case partially below or in an outer forehead ( 28 ) of the inner lever ( 3 ) is displaceable, which at one end ( 26 ) on the axis ( 4 ) together with the outer lever ( 2 ) is stored. Cam follower according to claim 1 or 7, wherein as a first loading means ( 19 ) Is provided, which, at least in the case of the back cover according to claim 6, from the support element via the complementary surface ( 7 ) through a channel ( 29 ) in an annulus ( 30 ) in front of the paddock medium ( 10 ) is controllable, being used as a second Beaufschlagungsmittel ( 20 ) at least one spring means such as a helical compression spring is provided, which between the annular collar ( 17 ) of the approach ( 13 ) and the outer forehead ( 16 ) of the stop book ( 15 ) or a blind hole ( 31 ) on the outer forehead ( 16 ) the stop bushing ( 15 ) runs. Cam follower according to claim 7, wherein the annular collar ( 17 ) of the approach ( 13 ) in the coupling case to an end face ( 32 ) of the outer lever ( 2 ) on the other end ( 27 ) strikes. Cam follower according to claim 1 or 6, wherein as a cam contact surface ( 8th ) is provided a rotatable roller.