Steel Piston With Optimized Design

Abstract

A steel piston (1) for a combustion engine, having an upper part in which a ring section (7) with at least one ring groove (8) is arranged, wherein the upper part is adjoined by a lower part that has two opposing skirt wall sections (2), wherein the two skirt wall sections (2) are connected via two mutually opposite case walls (3), wherein a pin bore (4) surrounded by a piston boss (6) is provided in each case wall (3). In one example, there is at least one aperture (14) or at least one recess in the case wall (3) in the region between the piston boss (6) and the skirt wall section (2).

Claims

1. A steel piston for use in a combustion engine comprising: an upper part in which a ring section with includes at least one ring groove; a lower part connected to the upper part, the lower part having two opposite skirt wall sections; and two mutually opposite case walls connecting the two skirt wall sections, each case wall defining a pin bore surrounded by a piston boss and further defining at least one of at least one aperture or at least one recess positioned in a region around the pin bore.

2. The steel piston of claim 1, wherein the at least one of the at least one aperture or the at least one recess in the case wall is positioned in the region between the piston boss and one of the two skirt wall sections.

3. The steel piston of claim 1, wherein the at least one of the at least one aperture or the at least one recess comprises at least one aperture and at least one recess in each case wall.

4. The steel piston of claim 1, wherein each case wall is positioned inclined by an angle alpha relative to a piston stroke axis.

5. The steel piston of claim 1, wherein an excavation groove is defined in a pin surface of the pin bore in at least one of the two case walls.

6. The steel piston of claim 5, wherein a recess extends from the excavation groove towards at least one end of the pin bore.

7. The steel piston of claim 1, wherein at least one recess extends at least one of upwards or downwards relative to a piston stroke axis from the at least one ring groove in the upper part of the steel piston.

8. (canceled)

9. The method of claim 14 further comprising reworking the piston blank by a machining process.

10. The steel piston of claim 2, wherein each case wall is positioned inclined by an angle alpha relative to a piston stroke axis.

11. The steel piston of claim 2, wherein an excavation groove is defined in a pin surface of the pin bore in at least one of the two case walls.

12. The steel piston of claim 3, wherein an excavation groove is defined in a pin surface of the pin bore in at least one of the two case walls.

13. The steel piston of claim 7, wherein the at least one recess extending in the at least one of upwards or downwards relative to a piston stroke axis extends upwards and downwards from the at least one ring groove in the upper part of the steel piston.

14. A method for producing a steel piston for a combustion engine, the piston having an upper part having a ring section including at least one ring groove, a lower part connected to the upper part and having two opposite skirt wall sections, and two mutually opposing case walls connecting the skirt wall sections, each case wall having a pin boss defining a pin bore, the method comprising: implementing through a material displacement process in a piston blank for the steel piston at least one of: at least one recess or at least one aperture in a region around the respective pin bore; the two case walls positioned at an angle alpha relative to a piston stroke axis; an excavation groove positioned in a pin surface of the respective pin bore; a recess extending from the excavation groove towards at least one end of the respective pin bore; or a recess extending from the at least one ring groove in one of an upward or downward direction relative to the piston stroke axis.

15. The method of claim 14 wherein the implementing through the material displacement process in the piston blank for the steel piston comprises each of: the at least one recess or at least one aperture in a region around the respective pin bore; the excavation groove positioned in a pin surface of the respective pin bore; the recess extending from the excavation groove towards at least one end of the respective pin bore; and the recess extending from the at least one ring groove in one of an upward or downward direction relative to the piston stroke axis.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] An exemplary embodiment of the steel piston according to the invention is explained below on the basis of FIGS. 1 through 4.

[0021] FIG. 1 is a perspective view of a portion of one example of the invention.

[0022] FIG. 2 is a cross-section of a portion of one example of the invention.

[0023] FIG. 3 is a perspective view of a portion of one example of the invention.

[0024] FIG. 4 is a perspective view of a portion of one example of the invention.

DETAILED DESCRIPTION

[0025] In FIG. 1, a part of a steel piston 1 is shown, which has a skirt wall section 2 (and an opposing further skirt wall section that is not shown). The two opposing skirt wall sections 2 are connected to each other by respective case wall 3, wherein the two opposing case walls 3 (in FIG. 1 only one case wall 3 is shown) are set back relative to the outer diameter of the steel piston 1, on which the outer surface of the skirt wall sections 2 is located. A pin bore 4 is indicated in FIG. 1 opposite the end of the skirt wall section 2 lying parallel to the piston stroke axis and from which the case wall 3 extends.

[0026] FIG. 2 shows the steel piston 1 in a partial sectional representation, whereas FIGS. 3 and 4 show further detailed views (again in part) of the steel piston 1.

[0027] In these FIGS. 2 to 4, it is shown that the case wall 3 connecting the skirt wall sections 2 is arranged inclined by an angle (alpha) relative to the piston stroke axis (shown dashed). The reference number 5 denotes an inward-facing pin surface of the pin bore 4. Reference number 6 denotes a piston boss arranged around the pin bore 4. The piston boss 6 can transition directly into a case wall 3 without a step down, a curvature in the transition or the like. However, it is also conceivable that there is a stepped or curved transition in the transition from the piston boss 6 to the adjacent case wall 3. A ring section 7 in the upper part of the steel piston 1 has at least one ring groove 8. In this exemplary embodiment, the ring section 7 has a total of three ring grooves 8 one above the other in the upper part of the steel piston 1. The rings are not shown.

[0028] The steel piston 1 of the exemplary embodiment further has an annular cooling channel 9 and a combustion chamber trough 10 lying concentrically within the cooling channel 9. These two elements can be present individually or together, wherein however it may be that only the cooling channel 9 or only the combustion chamber trough 10 is present. The reference number 11 denotes an excavation groove 11 lying in the pin surface 5, in which a securing ring for the piston pin, which is not shown, is inserted when the piston pin is inserted in the pin bore 4. A single recess 12 extends outwards from the excavation groove 11 in this exemplary embodiment, that is towards the piston boss 6, wherein however more than a single recess 12 can be provided. The at least one recess 12 can also be directed inwards.

[0029] Reference number 13 denotes at least one further recess, which extends downwards from a ring groove 8 (the lower ring groove 8 is shown in FIG. 4) in the upper part of the steel piston 1 when looking at FIG. 4. Of course, it is also conceivable to also provide at least one recess 13 in the region of the other ring grooves 8. Likewise, the at least one recess 13 may extend not only downwards looking at FIG. 4, but only upwards or even downwards and upwards.

[0030] As another feature according to the invention, another aperture 14 is shown in the case wall 3 in FIG. 1. This aperture 14 may be the only aperture in this case wall 3, wherein it is also conceivable to provide more than the one aperture 14 shown in the case wall 3. The same applies to the provision of at least one aperture 14 not only in the one case wall 3 shown, but also in at least one further case wall 3, preferably in all four case walls 3 that are present. As an alternative or complementary to the at least one aperture 14 shown, at least one recess can also be provided in the case wall (on the outward-facing side and/or the inward-facing side of the case wall 3.

REFERENCE CHARACTER LIST

[0031] 1. steel piston [0032] 2. skirt wall section [0033] 3. case wall [0034] 4. pin bore [0035] 5. pin surface [0036] 6. piston boss [0037] 7. ring section [0038] 8. ring groove [0039] 9. cooling duct [0040] 10. combustion chamber trough [0041] 11. excavation groove [0042] 12. recess [0043] 13. recess [0044] 14. aperture