DE10330510A1 - Support element for controlled cam follower of valve gear of internal combustion engine has two paths extending from outer casing of housing for differently pressurized hydraulic medium through support element - Google Patents

Abstract

The support element (1) for a controlled cam follower of a valve gear of an internal combustion engine has a cup-shaped housing (3) installed by its outer casing (2) in a cylinder head. Two paths (8,9) extend from the outer casing of the housing for differently pressurized hydraulic medium through the support element. The first path leads to a hydraulic clearance compensating device (7) in the support element, and the second path (9) leads to the mouth (11) in the end face (10) of the head (5) of a pressure piston (6) supporting the cam follower.

Description

Territory of invention

The The invention relates to a support element for one switchable drag lever of a valve train of an internal combustion engine, with one over his outer coat can be installed in a cylinder head of an internal combustion engine, pot-like Casing, which housing telescopically with a pressure piston projecting beyond its recess with its head is plugged together, which head for pivotally supporting the switchable rocker arm is provided, wherein in the support element a hydraulic lash adjuster extends and wherein an end face of the head an end-side opening for hydraulic fluid from the support element for acting on a hydraulically displaceable coupling device having in the switchable drag lever.

background the invention

A generic support for a switchable rocker arm is from the US 5,544,626 previously known. This is also designed to act hydraulically and serves at the same time a hydraulic loading of the longitudinally displaceable coupling means (s. 1 ).

in the State of the art, as well as in the aforementioned solution but disadvantageously the hydraulic lash adjuster in the support element and the hydraulically displaceable coupling means in the switchable Drag lever over a common oil supply applied. This so-called "single-flow" supply has the basic Disadvantage that to the circuit over the speed ranges always proceeded from the hydraulic fluid pressure must become, which for proper care the hydraulic lash adjuster is necessary.

outgoing from the at least required supply pressure for the hydraulic lash adjuster is for the circuit requires a certain difference in hydraulic fluid pressure, so that only from reaching a minimum pressure on hydraulic means for the lash adjuster plus the aforementioned difference in hydraulic fluid pressure the circuit possible is. However, this hydraulic fluid pressure usually arises only at speeds of the internal combustion engine, which is already very close at the permissible Switching speed (mechanically conditioned) are. Therefore, a result only very narrow for the circuit usable speed band.

The the aforementioned maximum speed, in which sense still a Entkoppelzustand can be driven, stirs therefore, that it is necessary in this decoupling or lost-motion state is the decoupled rocker arm component via lost-motion spring means always to keep to the expiring cam edge. Here are the today usefully applicable lost-motion springs set limits.

Task of invention

task The invention is therefore a support element for a switchable drag lever of the aforementioned type, in which the cited above Disadvantages are eliminated with simple means.

Solution of task

According to the invention this Task solved by that, starting from the outer jacket of the housing, two separate paths for through each other differently pressurized hydraulic fluid through the support element go, with the first path to the hydraulic lash adjuster and the second path to the estuary leads.

By this so-called "double-flow" supply in the support element, starting from two feed bores for hydraulic fluid in the cylinder head, the disadvantages cited above are effectively avoided. The hydraulic lash adjuster is thus always with full hydraulic fluid pressure applied, the switchable cam follower over the separate according to the invention Path from the head of the support element with shifting oil is supplied.

by virtue of the decoupling of the hydraulic paths and thus independence the minimum hydraulic fluid pressure for the hydraulic lash adjuster, will the for a circuit usable speed range on the switchable rocker arm drastically opposite the prior art increased. However, even here not possible for switching speed limit For example, 3000 or 3500 rpm of the internal combustion engine are exceeded.

The proposed measures are equally applicable to uncoupled and depressurized unlocked coupling agents in the switchable drag lever. It is assumed that in today's conventional internal combustion engines with the inventive measures speed ranges for the circuit are present, which are approximately between just above the idle speed and 3000 - 3500 U / min of the internal combustion engine. In the "single-flow" supply available in the prior art, this speed range is only half as wide or still limited.

The Separation of the paths requires only minor changes to previously implemented "single-entry" support elements or cylinder heads therefor. Possibly. must the height of the housing the support element slight elevated be and it is necessary to provide a second oil path in the cylinder head.

Of course you can The invention also relates to supporting elements refer to which nichtschaltbare rocker arms are stored, however, it is still necessary to have two hydraulic fluid paths apply.

To A first embodiment of the invention is provided on the outer jacket of the housing Apply two annular grooves, which then with appropriate supply lines interact in the cylinder head. It is also conceivable, however, in the Recording of the cylinder head for the support element two Arrange ring grooves, from the corresponding channel from the cylinder head be fed out and then on the housing of the support element only two passages to arrange. An equal choice has the expert for the outer jacket the pressure piston or the recess of the housing.

special Advantage of the invention is that on previously executed support elements with preferably extruded pressure piston essentially resorted to can be, with the separation of the two paths in the pressure piston a simple Abschottmittel such as a disc or a cap provided is. This Abschottmittel thus separates end regions in the axial direction the paths under formation of storerooms.

In order to in the pantry for the clearance compensation device accumulating air simply into the open air can escape, it is proposed in training of the invention, in the region of the Abschottmittels at least one vent apply. Included with the scope of the invention also a solution, in which the pressure piston is supplied in two parts and from a upper section with the second reservoir and a lower section with the first pantry and the separation thus in the area the mutually facing end faces of the portions of the pressure piston he follows.

When muzzle the second path in the head of the plunger is at least one simple intended to be produced bore.

Short description the drawing

The Invention is suitably closer to the drawing explained.

It the sole figure shows a spatial sectional view to an inventive support element.

Full Description of the drawing

The figure discloses a support element 1 for a switchable drag lever of a valve train of an internal combustion engine. This is over an outer coat 2 his case 3 firmly locatable in a bore of a cylinder head, not shown. The housing 3 is here pot-shaped and has a recess 4 , Inside the recess 4 runs axially movable to the housing 3 a pressure piston 6 , This surmounted the recess 4 with his head 5 , A front page 10 Of the head 5 serves a pivotable support of one end of a switchable rocker arm.

Between the pressure piston 6 and the housing 3 runs an unspecified hydraulic lash adjuster 7 , On the outer jacket 2 of the housing 3 are two axially separate annular grooves 12 . 13 created. From the axially lower annular groove 12 goes a passage 14 out hydraulically with a passage 16 in the pressure piston 6 connected is. The passage 16 leads directly into a lower storage room 20 an interior 18 of the pressure piston 6 , Overall, the aforementioned device thus forms a path 8th to supply the hydraulic lash adjuster 7 with hydraulic fluid.

Starting from the other ring groove 13 runs in the housing 3 a passage 15 , in turn, in hydraulic communication with a passage 17 in the upper section of the pressure piston 6 lies, with the passage 15 in an annular groove 15a the recess 4 of the housing 3 empties. From the passage 17 The hydraulic fluid is further in an upper reservoir 21 of the interior 18 of the pressure piston 6 directed. From there, a forwarding of the hydraulic fluid takes place via a mouth formed as a bore 11 in the area of the front side 10 Of the head 5 to the graphically not disclosed switchable drag lever.

As the figure further can be seen, are the pantries 20 . 21 by a trained here as a coping Abschottmittel 19 separated from each other. This isolation means 19 can be easily retrofitted in the pressure piston 6 assemble and fix as far as possible hydraulic fluid tight. In order to but in the lower pantry 20 accumulated air can escape between the bulkhead 19 and an inner wall 22 of the pressure piston 6 at least one vent 23 as a channel o. Ä. Provided. Possibly. can by the Abschottmittel 19 also go at least one hole.

Due to the aforementioned structural measures is a support element 1 with two separate paths 8th . 9 for hydraulic fluid. The path 8th serves as the supply of the hydraulic lane adjuster and the path 9 an application of hydraulically displaceable coupling means in the overlying switchable rocker arm. Thus, the coupling device in the switchable drag lever is no longer dependent on the at least required hydraulic fluid pressure to supply the hydraulic lash adjuster 7 , which increases with increasing speed of the internal combustion engine (sa description introduction).

1

supporting

2

outer sheath

3

casing

4

recess

5

head

6

pressure piston

7

Lash adjuster

8th

path

9

path

10

front

11

muzzle

12

ring groove

13

ring groove

14

Passage

14a

annulus

15

Passage

15a

annulus

16

passage

16a

outer sheath

17

passage

18

inner space

19

Abschottmittel

20

pantry

21

pantry

22

inner wall

23

vent

Claims (7)

Support element ( 1 ) for a switchable cam follower of a valve train of an internal combustion engine, with a via its outer casing ( 2 ) can be installed in a cylinder head of an internal combustion engine, pot-like housing ( 3 ), which housing ( 3 ) with a recess ( 4 ) with his head ( 5 ) superior pressure piston ( 6 ) is telescopically mated, which head ( 5 ) is provided for the pivotable support of the switchable rocker arm, wherein in the support element ( 1 ) a hydraulic lash adjuster ( 7 ) and wherein one end face ( 10 ) Of the head ( 5 ) an end mouth ( 11 ) for hydraulic fluid from the support element ( 1 ) for acting on a hydraulically displaceable coupling device in the switchable drag lever, characterized in that, starting from the outer shell ( 2 ) of the housing ( 3 ), two separate paths ( 8th . 9 ) for mutually different pressure-loaded hydraulic fluid by the support element ( 1 ), the first path ( 8th ) to the hydraulic lash adjuster ( 7 ) and the second path ( 9 ) to the mouth ( 11 ) leads. Supporting element according to claim 1, characterized in that on the outer casing ( 2 ) of the supporting element ( 1 ) two axially spaced annular grooves ( 12 . 13 ) to form inlets for the paths ( 8th . 9 ) are applied, of which the cylinder head side annular groove ( 12 ) Part of the first and the cylinder head remote annular groove ( 13 ) Part of the second path ( 8th . 9 ). Supporting element according to claim 2, characterized in that the annular grooves ( 12 . 13 ) at least one passage ( 14 . 15 ) as a bore is immanent, seen in the flow direction of the hydraulic fluid in an annular space ( 14a . 15a ) of the recess ( 4 ) of the housing ( 3 ) or an outer jacket ( 16a ) of the pressure piston ( 6 ), wherein the annular spaces ( 14a . 15a ) over all or at least parts of relative positions of the pressure piston ( 6 ) to the housing ( 2 ) with one passage ( 16 . 17 ) in the pressure piston ( 6 ) in its interior ( 18 ), the pressure piston ( 6 ) hollow cylindrical and at least in the area of the passages ( 16 . 17 ) is one-piece and wherein the interior ( 18 ) axially between the passages ( 16 . 17 ) with a Abschottmittel ( 19 ), so that a first and second separate storage space ( 20 . 21 ), which storeroom ( 20 ) from the first path ( 8th ) and which storeroom ( 21 ) from the second path ( 9 ) is supplied. Support element according to claim 3, characterized in that as Abschottmittel ( 19 ) a disc or coping-like separate body is provided. Supporting element according to claim 3 or 4, characterized in that by the Abschottmittel ( 19 ) or radially between this and an inner wall ( 22 ) of the pressure piston ( 6 ) at least one vent ( 23 ) from the first to the second storage room ( 20 . 21 ) leads. Supporting element according to claim 1 or 3, characterized in that the pressure piston ( 6 in egg nem non-cutting process such as extrusion is made. Supporting element according to claim 1, characterized in that the mouth ( 11 ) in the head ( 5 ) of the pressure piston ( 6 ) is made as a bore.