The following documents are incorporated herein by reference as if fully set forth: German Patent Application No. 102015209336.0, filed May 21, 2015
The invention relates to a hydraulic compensation element for the valve train of an internal combustion engine, with a circular cylindrical housing that can be installed in a cylinder head or engine block of the internal combustion engine and that has, in its bore, an axially moving pressure piston with a reservoir for oil as a hydraulic medium, wherein, in the interior of the pressure piston there is a sleeve-like deflection element for a hydraulic medium and oil can be introduced through at least one radial feed hole of the housing, a rising channel or longitudinal channel that runs axially along the pressure piston, and an end-side opening of the deflection element into the reservoir of the pressure piston.
Such a compensation element can be constructed, for example, as a roller tappet with lateral oil supply in internal combustion engines and can be used advantageously for the suitable arrangement relative to the vertical direction with respect to its center axis.
From the published patent application DE 101 42 329 A1, a valve train for an internal combustion engine with multiple roller tappets is known. Each tappet is supported with its lower end by a rotating tappet roller on the cam of a camshaft and acts with its upper end by a push rod on a valve of the internal combustion engine.
The published patent application DE 10 2006 017 442 A1 shows and describes a hydraulic support element with the features of the compensation element of the type specified above. In this design, a sleeve-like deflection element extends almost over the total length of the pressure piston, on whose inner lateral surface it forms a sealing contact with parts of its length. For this purpose, however, a ring recess of the pressure piston is required.
The invention is based on the object of providing a hydraulic compensation element with its oil supply, in which, in a sufficiently large oil reservoir, also with an arrangement of its longitudinal axis at an angle relative to the vertical, a large amount of oil can be fed and stored.
This objective is achieved according to the invention in that the deflection element is constructed as a circular cylindrical inner sleeve that has, on one axial end, a base with the end-side opening and on the other axial end is oversized relative to the inner diameter of the pressure piston, with which the inner sleeve is attached to the pressure piston in the area of an inner recess of the pressure piston with a positive and non-positive fit connection.
Such a compensation element can be constructed as a roller tappet whose housing has, on one axial end, a rotating tappet roller for contact on the cam of a camshaft.
The pressure piston of the compensation element can have, on its one axial end, a non-return valve with which its reservoir can be sealed relative to a high-pressure chamber of the housing, while the inner sleeve is arranged in the pressure piston in the area of its other axial end facing away from the non-return valve.
In this way, the rising channel can be arranged in the housing between this housing and the pressure piston located in the housing and can extend from the feed hole of the housing up to at least one passage hole of the pressure piston in the area of the inner sleeve.
One embodiment of the invention is shown in the drawing and is described in more detail below in comparison with a previously known hydraulic element. Shown are:
A hydraulic element 1 shown in
The pressure piston 7 is pressed out from the housing 2 by a spring element 6. In its interior, an axially almost continuous sleeve-like deflection element 16 is installed that contacts the ring base 10 with its end face 22 away from the head. Axially underneath a ring recess 29 of the pressure piston 7, the deflection element 16 forms a sealing contact on the inner lateral surface 18 of the pressure piston 7. In the area of the ring recess 29, the pressure piston 7 has an outlet 15 for hydraulic medium. This communicates with a passage 14 in the housing 2. The deflection element 16 runs with its head-side end face 21 directly underneath the spherical head 9 and has, in this area, a roof-like ring collar 30.
On its outer lateral surface 17, the deflection element 16 has, for feeding the hydraulic medium into its interior 21a on the side of the outlet 15, a rising path 19 that is constructed as a longitudinal channel 28. A transfer of hydraulic medium thus can be realized, starting from the passage 14, through the longitudinal channel 28 into the end area 20 and finally into the interior 21a.
A compensation element according to the invention shown in the other
In its middle area, the roller tappet 31 has two radial feed holes 41 of the housing 32 for the in-feed of oil as a hydraulic medium. These are connected by a rising channel 42 with radial passage holes 43 that are arranged in the pressure piston 36 in the end area 33 of the roller tappet 31. The pressure piston 36 contains the inner sleeve 40 there.
The pressure piston 36 also has, in the end area 33 facing away from the non-return valve 38, as part of the reservoir 37, a receptacle 44, into which the passage holes 43 open. In the receptacle 44 that can be seen from
In
The roller tappet 31a shown in
Number | Date | Country | Kind |
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10 2015 209 336 | May 2015 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
6615784 | Faria et al. | Sep 2003 | B2 |
7637237 | Evans | Dec 2009 | B2 |
Number | Date | Country |
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10142329 | Mar 2003 | DE |
102006017442 | Oct 2007 | DE |
2007118820 | Oct 2007 | WO |
Number | Date | Country | |
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20160341078 A1 | Nov 2016 | US |