DE19745907A1 - Valve plunger for combustion engine for hole in cylinder head - Google Patents

Abstract

A hydraulic clearance compensating element (7) with a sleeve (8) is fixed against the underside (6) of the base (3) of the plunger (1). Pressure is exerted on one of the outer surfaces (9) of the sleeve is by a pressure piston (10) moving axially in relation to the outer surface. At least one gas-reversing valve faces the base (11) of the pressure piston. A storage container (14) for hydraulic medium runs between an annular ledge on the sleeve, and the base. The annular ledge has at least one passage (19) closed by a closure body (16) opening towards a high pressure compartment (13). An adjustment (21) protrudes through a hole (20) in the base and cooperates with a peripheral groove (22) in the outer casing (23) of a cam (5).

Description

Field of application of the invention

The invention relates to a tappet for a valve train of an internal combustion engine ne who oscillates with his shirt in a hole in a cylinder head and on one top of its bottom by one or more cams one Is applied to the camshaft.

Background of the Invention

Such a plunger is disclosed in DE-OS 41 11 610. A bottom of the Tappet is penetrated by an actuator which ends at one end Closing body of a check valve of a play compensation element acts and at the other end with a groove on the outer jacket of an impinging Nockens communicates. This groove is only over a small area of the outer jacket of the cam and extends on both sides of the Cam tip in the area of a stroke-producing start and end flank. By Any opening of the closing body outside the area of the groove should be possible Tax times can be achieved. In particular, the goal is to make an automatic spin number-dependent shift of the closing time of the charged gas exchange to achieve valve.  

However, the specialist does not get any from the generic publication lei suggestions about how he uses the indicated means in the cam base circle can relieve a high pressure space of the play compensation element Camshaft misalignments, transverse vibrations of the camshaft and other influences such as non-roundness in the cam base circle from the gas exchange valve til to keep away, which is worst case for opening the gas in question change valve could lead in the base circle.

At the same time, the closing body of the plunger considered here is in several parts trained and the restoring means exists in a complex manner from a retaining cap on which a spring is supported. This configuration proves to be unfavorable with regard to the variety of parts and construction costs.

Object of the invention

It is therefore an object of the invention to describe the description cited in the introduction eliminate parts. In particular, a plunger is to be created in which technically little effort a forced opening of its closing body to the high pressure room during a base circle phase of the loading Cam is realized.

Summary of the invention

According to the invention, this object is achieved by the features of the main claim solved, expedient concretizations of the invention from the following subordinate claims.

The fact that the groove of the cam extends over its entire outer jacket with the exception of the base circle area, the check valve of the Game compensation elements defined and forcibly opened. Because of this "Open" are the high-pressure room and a storage room for game compensation elements hydraulically connected. Possible camshaft ver  Bearings or transverse vibrations of the camshaft or out of roundness no longer lead in the cam base circle, as is known per se to the person skilled in the art, for undesirable hardening of the high pressure chamber and possible relief of the gas exchange valve acted upon in the closing direction or even its To open.

In the course of the positive opening just mentioned, it is thus possible during the stroke of the gas exchange valve caused by quantity equalize hydraulic fluid very quickly. At the same time undesirable formation of a high pressure in the high pressure room during the Base circle phase prevented. Feedback of additional cams such as cams from injection pumps to hydraulic valve lash compensation if excluded. It is also known that it is particularly in the transient Operation to relatively large dilatations on the gas exchange valve relative to the reverse exercise is coming. In the worst case, these changes in length can do this cause the game compensation element no longer about its leakage function can compensate for this change in length and the gas exchange valve by one Partial amount remains open in the base circle of the cams. This disadvantage can also by the means proposed according to the invention in a simple manner be eliminated. Of course, is within the scope of this invention included a solution where there is no ring heel or at which the closing body does not protrude through the ring shoulder. The ring heel can for example also be made as a direct bottom of the sleeve.

The design of the actuator in one piece with the closing body as a needle proves to be special in terms of manufacturing and assembly costs Cheap. It is advantageous if the closing body in its closing area Shape of a valve disc or a spherical curvature. It can also other seat shapes that are useful for a sealing effect, such as conical ones in principle and the like can be chosen. In this case, the only thing that is important is the sealing effect of the closing body during the lifting phases of the loading Cam.  

In an expedient development of the invention, the circulation groove is also intended to be such be deeply made that the actuator running in one end in it Closed position runs at a distance from its base. By this measure is a across all operating and temperature conditions of the ram safe closing of the actuator during the cam lifting phase animals.

According to the invention, a spring means such as a plate spring is for the closing body the or proposed a retaining cap for resetting. Here is this Spring means designed so that there is a quick reset at the beginning Cam stroke guaranteed in its circumferential groove. So is in the high pressure room only the spring means are arranged next to the closing body. Further Components are no longer required.

However, it is also conceivable to completely dispense with the spring means and the closing body in the high pressure room with such a hydraulically effective To provide surface in the cam direction that during cam lift and up pressure chamber forming high pressure of the closing body through this in his Is brought into the closed position. A magnetic spring can also be used medium, a coil spring, a coil spring or a similar medium.

The spring force of the spring means is selected so that when the cam begins stroke can be expected to quickly close the high-pressure chamber. Whose stroke can be set almost arbitrarily by the configuration according to the invention bar. That is, there are no tight tolerances on its length and length bordering parts required.

Brief description of the drawing

The invention is expedient tert tert with reference to FIGS . 1 and 2. These show in a longitudinal section a built-in compensation element in a tappet; Fig. 1 with attacking cam.

Detailed description of a preferred embodiment To build

The figure shows a tappet 1 for a valve train of an internal combustion engine, as is known per se to the person skilled in the art. The plunger 1 oscillates with his shirt 2 (indicated on the left) in a bore, not shown, of a cylinder head. It has a base 3 which is acted upon by a cam 5 on its upper side 4 . - If the plunger 1 is to be designed on different strokes for one or more gas exchange valves, it is also conceivable that several cams of different strokes act on the bottom thereof.

A hollow cylindrical sleeve 8 is placed against an underside 6 of the base 3 . This sleeve 8 includes a reservoir 14 for hydraulic fluid. On its lateral surface 9 , the sleeve 8 is enclosed by a pressure piston 10 . A high-pressure chamber 13 for the hydraulic medium runs axially between a ring shoulder 12 of the sleeve 8 and a base 11 of the pressure piston 10 . This high-pressure space 13 is closed in the direction of the storage space 14 by a closing body 16 during the entire lifting phase of the acting cam. The closing body 16 is acted upon in its closing direction by a spring means 24 (here designed like a retaining cap). The spring means 24 is fixed axially below the ring shoulder 12 of the sleeve 8 in a recess 25 . At the same time, one end is supported on the spring means 24 a compression spring 27 which acts at the other end against the ground. 11

The closing body 16 is connected in one piece to an actuator 21 designed as a needle. This actuator 21 leads along the ram axis through the storage space 14 and pierces an opening 20 in the bottom 3 . It projects into a circumferential groove 22 of the cam 5 . As can be seen from the figure, the actuator 21 does not touch a base 26 of the groove 22 during its closed position.

How it works

The circulation groove 22 extends over an area of an entire stroke phase of the cam 5 with the exception of its base circle. If the base circle of the cam 5 comes into contact with the bottom 4 at the end of the cam outlet flank, the area of the circumferential groove 22 which has not been left open begins. The actuator 21 thus runs directly on an outer jacket 23 of the cam 5 . Here it experiences a stroke in the direction away from the cam. This Hubbewe movement causes a release from the closing body 16 to date limited passage 19 on the ring shoulder 12 against the force of the spring means 24th This forced opening of the passage 19 during the base circle phase means, on the one hand, that an excellent play compensation function of the play compensation element 7 is to be expected, which is reliable over all operating conditions of the tappet 1 . On the other hand, there can no longer be an undesirable hardening of the high-pressure chamber 1 3 during the base circle phase of the cam 5 . This hardening stems, as explained, for example from non-roundness of the cam base circle, transverse vibrations of the camshaft or undesired dilatations of the acted gas exchange valve, particularly in the transient mode of the internal combustion engine.

If a tappet 1 according to the invention comes to the undesirable conditions as mentioned, a quantity of hydraulic fluid displaced in the high-pressure chamber during the base circle phase of the Noc kens 5 can easily escape into the storage chamber 14 . With the base circle end of the Noc kens 5 , its circumferential groove 22 begins again. The actuator 21 is brought extremely quickly into its closed position at the passage 19 via the force of its spring means 24 and the excess pressure which forms in the high-pressure chamber 1 3. The plunger 1 can carry the cam stroke 5 in a conventional manner.

Fig. 2 discloses a plunger 1 similar to Fig. 1. However, here the closing body 16 is acted upon by a spring means 24 designed as a helical spring. At the same time, the compression spring 27 acts against the ring shoulder 12 . The retaining cap as the spring means 24 and the recess 25 are dispensed with. Thus, the ring shoulder 12 is formed as an immediate bottom for the sleeve 8 . At the same time, the person skilled in the art can see in FIG. 2 that the pressure piston 10 is significantly simplified compared to the previous embodiment, since the high-pressure space 13 enclosed by it is manufactured without steps. By eliminating the recess 25, and the latter measure is for the play compensation element 7 of FIG. 2 with a lower manufacturing cost over that described in Fig. 1 play compensation element 7 to be expected. The spring means 24 can on one end of a ring shoulder 28 of the closing body 1 6 conditions.

Reference list

1

Pestle

2nd

shirt

3rd

ground

4th

Top

5

cam

6

bottom

7

Game compensation element

8th

Sleeve

9

Lateral surface

10th

Pressure piston

11

ground

12th

Ring heel

13

High pressure room

14

Pantry

15

not forgiven

16

Closing body

17th

Spring means

18th

not forgiven

19th

Passage

20th

opening

21

Actuator

22

Circulation groove

23

Outer jacket

24th

Spring means

25th

deepening

26

reason

27

Compression spring

28

Ring heel

29

Oil spill

Claims (4)

1. tappet ( 1 ) for a valve train of an internal combustion engine, which oscillates with his shirt ( 2 ) in a bore of a cylinder head and on an upper side ( 4 ) of his bottom ( 3 ) by one or more cams ( 5 ) of a Nockenwel le is, against an underside ( 6 ) of the bottom ( 3 ) a hydraulic cal compensation element ( 7 ) with a sleeve ( 8 ) is fixed, which sleeve ( 8 ) Chen on one of its lateral surfaces ( 9 ) axially displaceable relative to it Pressurized piston ( 10 ), which faces at least one gas exchange valve via its base ( 11 ), a high-pressure chamber ( 13 ) between the base ( 11 ) and an annular shoulder ( 12 ) of the sleeve ( 8 ) and between the annular shoulder ( 12 ) and a storage space ( 14 ) for hydraulic medium extends through the floor ( 3 ), the annular shoulder ( 12 ) having at least one passage ( 19 ) which, from the side of the high pressure space (1 3), passes through a direction towards the high pressure space ( 13 ) opening closing body ( 16 ) is closed, which can be displaced in the direction of the bottom ( 11 ) by an actuator ( 21 ) projecting through an opening ( 20 ) in the bottom ( 3 ) and which has a circumferential groove ( 22 ) on the outer casing ( 23 ) of the cam ( 5 ) cooperates, characterized in that

• - That the circumferential groove ( 22 ) extends over an entire stroke range of the cam ( 5 ), wherein it is made without recess over its base circle or over partial areas of its base circle;
• - That the circumferential groove ( 22 ) in the stroke area of the cam ( 5 ) has such a depth that the actuator ( 21 ) extending in it releases the closing body ( 16 ) to the extent that it can rest against the passage ( 19 ) and
• - That the actuator ( 21 ) is made as a needle, which is integrally formed with the closing body ( 16 ).

2. Tappet according to claim 1, characterized in that the closing body ( 16 ) is acted upon in the closing direction by a spring means ( 24 ) such as a plate, coil or spiral spring or a retaining cap, which in the case of the retaining cap on the ring shoulder ( 12 ) or a depression ( 25 ) of the sleeve ( 8 ) formed by this supports on one side of the high-pressure chamber ( 13 ), the ring shoulder ( 12 ) also being used directly as a bottom, without the depression ( 25 ) of the sleeve ( 8 ) can be produced. 3. Tappet according to claim l, characterized in that the circumferential groove ( 22 ) is made so deep that the actuator ( 21 ) extending at one end in its closed position runs at a distance from its base ( 26 ). 4. Tappet according to claim 1, characterized in that the closing body ( 16 ) at its closing area at the passage ( 19 ) has the shape of a valve plate or has a spherical curvature.