DE2200131C2 - Valve tappets for internal combustion engines with an overhead camshaft - Google Patents

Description

22 OO 131

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tion with inlet and outlet valves 12 for each cylinder, between the sliding surfaces of the piston 60 and the button

which extend through the head, so that the valve lash adjuster 50

End 14 of the valve stem from the cylinder head leaks through The cage 86 has a stepped transverse

protrudes above. cut open, the movement of valve 76 at a

The valve stem is held within a cylinder 5 shoulder 84 on cage 86,
head provided bore in an elongated during each opening movement of the valve verur guide sleeve 16.It comprises a neck piece gently the cam projection 30 a downward-18 with a smaller diameter, around which a substantial movement of the valve tappet body 4Z the Kolchen disk-shaped spring plate 20 is set to push ben 60 further into the interior of the valve lash adjuster, a compression spring 22 between itself and the cylinder head 10, and tries to keep it from it. Above the valves and the cylinder head there is an overhead camshaft 24 which guides the valve 76 onto its seat, so that a backflow of oil through the piston bore 74 includes cams 26 in a number of spaced-apart ways one cam for each is prevented. It is this pressure that determines a valve-valve and each cam brings about a base circle 15 backlash compensation, and the only arc 28 that takes place and a cam movement of the oil from the hydraulic fluid chamber 62 of conventional design consists in the Leakage between each other

A valve tappet 40 consists of a valve tappet contacting and associated surfaces

body 42, which is inverted cup-shaped of the piston and the valve lash adjuster.

and its closed end 44 engages 20 as the downward movement continues, this becomes

the cam 26 is located in the valve tappet body 42 valve lash adjuster under the influence of

is an upwardly extending substantially compressive force of the one in the hydraulic fluid chamber 62

cup-shaped valve lash adjuster 50 of enclosed oil is also moved downwards, where-

puts. the closed lower end 52 of which is caused by the engine valve against the

upper end 14 of the valve stem rests 25 pressure to open its valve spring 22. During the

The valve tappet body and the valve clearance return stroke becomes the closed end 44 of the equal elements are slidably mounted relative to each other, valve tappet body 42 by the influence of Druckum to effect the slide adjustment. A retaining ring 46 is pressed against the cam by virtue of the valve spring 22, is located in an annular groove 48 on the inside when the cam traverses its base arc 28 Surface of the valve tappet body 42 for holding 30 runs This causes the oil pressure in the pressurized fluid the valve lash adjuster within the speed chamber 62 is reduced, although the engine oil valve tappet body, pressure is still present, together with the through

The valve tappet body 42 and the lash adjuster- the spring 82 exerted compressive force on the piston element 50 are in the opposite position pushed back up against the closed end of the der and form a chamber 54, which is supported by a piston 35 valve tappet body 42, while supporting the ge-60 is divided. The piston 60 part namely the chamber 54 closed end 52 of the valve lash adjustment element a pressure fluid chamber 62, the inside of the tes 50 upright against the end 14 of the valve stem Valve lash adjuster 50 is obtained below the KoI. The relative movement thus achieved is possible 60 is formed, and in a storage space 64, which in the tet the valve 76 to leave its seat, whereby a Inside the valve tappet body 42 above the valve 40 for replenishing certain oil flow to the pressure fluid lash adjustment element 50 and the piston 60 compliance chamber 62 to the extent possible, as necessary det is. The pressure fluid chamber 62 is dimensioned in order to prepare it for the next valve opening oil Supplied via an oil bore 66, which is completely refilled in the recovery cycle. The size of the a branch line 68 opens, which in turn, in connection with relative movement between the valve tappet body 42 with the storage space 64 via openings 70 and 72 45 and the valve lash adjustment element 50 it is swayed. A piston channel 74 allows the influx of masks in accordance with the expansion and contraction oil from the storage space 64 to the pressurization of the various components as a result of Vermer 62, the oil flow through a check valve 76 wear and friction or temperature gradient within is controlled, which allows the oil flow in one direction, the machine.

namely from the storage space into the hydraulic fluid 50 It should be noted that the valve chamber, while there is the return flow from the Druckflüs- tappet body 42, the valve lash adjuster 50 sigkeitskammer prevented. and the piston 60 all made of extremely high quality

The check valve 76 is in a closed position valuable material according to the required

pressed by a spring 78, the manufacturing tolerances and relative sliding movements by means of a cage 86

is pressed against the valve 76. The cage itself will consist of 55, which will consist of the required constants

compared to the lower part of the piston 60 in which it results in oscillating movements. The components have

assigned position held by means of a spring 82, which is also of such a size that it is on machines

Ren spring constant that of the spring 78 can be produced considerably, which is necessary for the production of large product

exceeds. The valve 76 is also used in its closed position volumes of tappets for push rod machines

ment pressed when the pressure in the hydraulic fluid 60 serve. Previously the cost of these materials was a

chamber 62 is higher than that in the storage room. absolute obstacle, or at least they worked

The spring 78 and the cage 86 delimit the opening dread in connection with the manufacture of

movement of the valve 76 to the extent necessary, tappets for overhead camshafts when the valve

to refill the pressure chamber 62 with oil tilstößelkörper 42 over the end portion of the valve stem

to cause that is normally set from there in sequence of 65 and the spring 22 and the spring plate 20

Leakage escapes. Leakage losses arise and these components partially surrounds. This requirement

while the opening brought about by the cam falls in the embodiment shown in FIG

movement of the machine valve, which removes oil backlash, and as a result, it is no longer necessary

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like to enclose a portion of the valve stem and the spring by the valve lifter body or to surrounded, resulting in a significant reduction in the diameter of the valve lifter body and its overall length As shown in FIG. 1 shows, this diameter is considerably smaller than the spring diameter.

This is achieved by an intermediate guide member 90 which is connected to the valve tappet body 42 and between these and the cylinder head 11 is placed this part of the cylinder head 11, which is upwards Extending around the plunger includes a cylindrical bore 92 which acts as a guide in the movement of the The intermediate guide member 90 is essentially sleeve-shaped and preferably tubular, a sliding fit being provided in the bore 92, during the bore and the guide link 90 assume a concentric position with respect to the valve stem. The intermediate guide member extends down over the end portion of the spring 22 and the spring plate 20 to the valve tappet body a lateral To give a stop so that this, the compensating element and the piston from all laterally directed forces, which would otherwise be caused and transmitted by the cam are relieved.

The intermediate guide member 90 preferably consists of a substantially cylindrical side wall 93 and extends approximately from the closed end portion 44 of the valve stem body downwards above the highest one Part of the valve spring 22 to end approximately next to the guide sleeve 16. The top of the Guide link 90 extends inwardly to form a flange 94, the inner end 96 of which is a Forms a snug fit with the valve tappet body At an axial distance therefrom there is a constriction underneath 97, the width of which corresponds to the distance between the valve tappet body and the bore 92 inner surface 98 of the neck 97 forms an annular surface that is in tight contact with the valve tappet body 42 is located and together with the flange 94 an annular support for the valve tappet body forms at two spaced apart locations

As shown in FIGS. 2 and 3, one locks substantially C-shaped spring clip 100 is the guide link 90 on the valve lifter body. The ends of the spring clip are paired in a radial direction Direction of extending projections 102 and 104 formed through the body of the intermediate guide member are inserted through into the valve tappet body. This is achieved by having a pair diametrically opposed to each other opposing openings 106 and 108 in the intermediate guide member, to allow the protrusions to be inserted. The valve lifter body also includes an annular groove 110, which is also used for receiving the protrusions 102 and 104 serves therefore, the guide intermediate member when the protrusions with approximately equal length to the depth of the openings and projections extend, releasably by means of the spring clip attached to the valve tappet body. The opening 70 is provided in the intermediate guide member to prevent the oil flow from the oil bore 66 through the branch line 68 into the storage space 64 through the opening 72.

It should be noted that while the spring- it clamp a tight and simple lock between the guide link and the valve lifter body brings about any air entering the system out of the intermediate guide member the point where the flange 94 is supported on the valve tappet body. This prevents an undesirable pressure build-up in the system.

The intermediate guide member 90 is made of sheet steel, which is made of a semi-finished pipe in the illustrated Shape is rolled. This can be steel pipe, which is preferably carbonitrided, or aluminum. If aluminum it may be necessary to subject the surface to a surface hardening treatment, to avoid excessive wear on the outer engagement surface on bore 92. These Tubular goods formed in this way are decidedly cheaper than the high-quality material that is used for the valve lifter body itself is needed and there is significant savings on a quantity basis Achieved If you just consider the amount of tappets manufactured in the automotive industry, so it is found that these savings are extremely beneficial.

1 sheet of drawings

Claims (4)

22 OO 131 1 2 ßelkodies known (DE-OS 19 14 693), in which the Claims: valve tappet body in the contact area with the cam is provided with a plate, which in connection with ! .Valve tappets for internal combustion engines with the material of the cam on top of the camshaft, which has favorable wear and tear, which shows shafts in a sliding guide 5 Valve housing bore is sized. Due to the necessary arrangement of the valve tappet body, which interacts with the sliding guide, and which are non-cylindrical side walls, an annularly constricted part is provided in the path of load transmission between cams, 10 ken and valve stem, this being the free end of the loads facing the valve as well as the Required manufacturing side wall extends over the valve spring, tolerances and sliding properties for the necessary and the one directly with the control cam to keep the oscillating movements constant, partly made of cooperating cup-shaped material of high quality for the valve. By producing a tappet body that is open with a cup and inside the tappet-shaped outer part as a deep-drawn part. can ßelkörpers an axially slidable with respect to this, thus the use of the particularly wear-resistant, automatically adjusting hydraulically acting material can be limited to the plate. Has plate and VentUspieliius equal element, the unaiittel- outer part are firmly connected to each other,
bat- cooperates with the valve stem end, because the object of the invention is characterized in that the tappet body 20 ßen valve tappet with structurally simple measures a per (42) on the one hand and the cylindrical Seitenwan- essential savings of high quality material fertilize with the constricted part (97) of other to reach. on the one hand as two detachably connected components This task is carried out with the features of the characteristic Ie are designed such that one between the characterizing part of claim 1 is solved. Because of the The valve tappet body, which has the taking up the radial distance from an essentially lash adjuster, be built smaller tubular intermediate member (90) is bridged, which, whereby a saving of high-quality work which results from its substance facing the control cam (26), which results in view of the mass production At the end of an inwardly directed flange (94) on valve tappet bodies, correspondingly reducing the price has, which forms a snug fit with the tappet body, 30 has an effect during production. the intermediate member over the constricted lent hold of the valve tappet body in order to Part of the valve tappet body is attached, the lash adjuster is taken from all laterally 2. Valve tappet according to claim 1, characterized by marked forces due to the action of the cam, that the intermediate member (90) is relieved with the plunger, the intermediate member has one body (42) by means of a spring clip (100) to 35 inwardly directed flange which is fixed with its end is. NEN forms a snug fit with the valve tappet body, and is 3. Valve tappet according to claim 2, characterized furthermore the intermediate member on the constriction on draws that the tappet body (42) is attached to an open valve tappet body. openings (106,108) in the intermediate link (90) opposite- By these measures is one of the occurring Groove (110) is provided, in which the C-conveying loads guarantee a correspondingly robust structure, mig trained spring clip (100) with inwards because the valve tappet body is fully functional in the directed and through the openings inserted load transmission path between control cams and Ven projections (102,104) intervening may meet, however, due to the additional 4. Valve tappet according to claim 3, characterized in that the intermediate member builds smaller and is therefore less prominent, that the groove (UO) is formed as an annular groove. 45 quality material must be used. By forces to be absorbed by the pontic are same as the valve tappet body arranged directly in the load transmission path according to the US-PS 35 09 858 lower. It is thus possible to The invention relates to a valve tappet according to the 50 member in a very inexpensive manner as a sheet metal component. Preamble of claim 1. Expedient developments of the invention are In known valve tappets of this type (US-PS by the features contained in the subclaims 09 858) extends the cup-shaped male marked. and the lash adjuster receiving valve shafts An exemplary embodiment of the invention is described below. ßelkörper described above the upper end of the valve stem 55 training with reference to the drawing. In it shows surrounding valve spring as well as over the spring plate. F i g. 1 shows a longitudinal section through a For this reason, the diameter of the valve tappet is designed in accordance with the valve tappet; body each larger than the diameter of the valve F i g. FIG. 2 is a partial view of the valve stem of FIG. 1 feather. Since the valve tappet body due to the high in section along the line H-II of Fig. 1; Load transfer from the cam to the valve stem from 60 F i g. 3 is a side view of parts of the valve lifter high-quality, expensive materials are made from FIG. 1. is due to the comparatively large construction As can be seen in detail from the drawings. the conventional valve tappet body corresponds to FIG. 1 shows a machine arrangement 10 which has a corresponding cost disadvantage. There is accordingly a convenient internal combustion engine with a large number of the manufacture of the valve lifters by means of single-space cylinders and pistons (not shown) in order to tion of the previously required high-quality, material ne also not shown crankshaft for the production to make cheaper for the valve tappet body. to drive mechanical power. The machine It is true that there are two-part designs of valve stems containing a cylinder head 11 of conventional design