Friction Loss-Reduced Piston For An Internal Combustion Engine

Abstract

A piston for an internal combustion engine, said piston having an upper piston portion (1) in which a ring zone (2) is located, and a piston lower part (3) having two opposing, load-carrying skirt wall sections (4,5) on the pressure- and counter-pressure sides of the piston adjoins the upper piston portion (1), and the two load-carrying skirt wall sections (4,5) are interconnected via connecting walls (6,7) that are recessed relative to the outer diameter of the piston. Each connecting wall (6,7) includes a pin bore having a pin bore axis (18) for receiving a pin. The two opposing, load-carrying wall section (4,5) have different wall thicknesses and different transition regions at the transition of their lateral skirt connections (8,9 and 16,17) to the recessed connection walls (6,7).

Claims

1. A piston of an internal combustion engine, comprising a upper piston portion (1) in which a ring zone (2) is located, wherein, starting at the upper piston portion (1), a piston bottom part (3) with two opposing skirt wall sections (4, 5) is provided on a pressure and a counter pressure side of the piston, and the two opposing skirt wall sections (4, 5) are interconnected via connecting walls (6, 7) that are set back relative to the outer diameter of the piston, wherein in each connecting wall (6 and 7) a pin bore for receiving a pin is provided, wherein the two opposing skirt wall sections (4 and 5) comprise different transition areas at a transition of their lateral skirt connections (8, 9 and 16, 17) to the connecting walls (6, 7), wherein the skirt wall section (5) of the counter pressure side comprises a central skirt region (15) extending all the way to a ring zone bulge (12), wherein the central skirt region (15) tapers in a direction toward the upper piston portion (1), wherein the lateral skirt connections (8, 9) on the counter pressure side are adapted accordingly, and wherein the central skirt region (15) comprises a constant wall thickness.

2. The piston according to claim 1, wherein the two opposing skirt wall sections (4 and 5) comprise wall thicknesses that are different from each other.

3. The piston according to claim 1, wherein the two opposing skirt wall sections (4 and 5) comprise equal wall thicknesses.

4. The piston according to claim 1, wherein the ring zone bulge (12) defines a cavity, the ring zone bulge extending into the upper piston portion (1) and is provided within the skirt wall sections (4 and 5) and the connecting walls (6, 7).

5. (canceled)

6. (canceled)

7. The piston according to claim 1, wherein the wall thickness of the connecting walls (6, 7) decreases in the direction toward the upper piston portion (1).

8. The piston according to claim 2 further defining undercuts (10, 11) projecting into the upper piston portion (1) are incorporated on the outside of the connecting walls (6, 7) and comprise arcuate cross sections.

9. The piston according to claim 1, wherein the skirt wall section (4) of the pressure side comprises two central skirt regions, an upper central skirt region (13) adjacent to the ring zone bulge (12) and a lower central skirt region (14) positioned distant from the ring zone bulge (12), to which the lateral skirt connections (16, 17) on the pressure side are laterally adjoined.

10. The piston according to claim 9, wherein the upper central skirt region (13) is arranged at the level of the pin bore above a pin bore axis 18 thereof and is designed as a strip.

11. The piston according to claim 9, wherein the lower central skirt region (14) extends from a lower edge of the pin bore to a lower end of the skirt wall section (4) on the pressure side.

12. The piston according to claim 2, wherein the ring zone bulge (12) defines a cavity, the ring zone bulge extending into the upper piston portion (1) and is provided within the skirt wall sections (4 and 5) and the connecting walls (6, 7).

13. The piston according to claim 2, wherein the wall thickness of the connecting walls (6, 7) decreases in the direction toward the upper piston portion (1).

14. The piston according to claim 2, wherein the skirt wall section (4) of the pressure side comprises two central skirt regions, an upper central skirt region (13) adjacent to the ring zone bulge (12) and a lower central skirt region (14) positioned distant from the ring zone bulge (12), to which the lateral skirt connections (16, 17) on the pressure side are laterally adjoined.

15. The piston according to claim 14, wherein the upper central skirt region (13) is arranged at the level of the pin bore above a pin bore axis (18) thereof and is designed as a strip.

16. The piston according to claim 10, wherein the lower central skirt region (14) extends from a lower edge of the pin bore to a lower end of the skirt wall section (4) on the pressure side.

17. A piston of an internal combustion engine comprising: a piston upper portion; a pressure side skirt wall section connected to the piston upper portion, the pressure side skirt wall section further comprising: an upper central skirt region having a portion positioned above a pin bore axis and having a wall thickness; a lower central skirt region positioned below the pin bore axis and having a wall thickness; a counter pressure side skirt wall section connected to the piston upper portion and positioned opposite the pressure side skirt wall section, the counter pressure side skirt wall section having a central skirt region including a wall thickness; a pair of connecting walls positioned between the pressure side skirt wall section and the counter pressure side skirt wall section and extending angularly outward from the piston upper portion relative to a piston stroke axis, each of the pressure side skirt wall section and the counter pressure side skirt wall section including a lateral skirt connection connecting the pressure side skirt wall section and the counter pressure side skirt wall section to the respective connecting wall, wherein the pressure side skirt wall section upper central skirt region wall thickness is a constant thickness, the lower central skirt region wall thickness is a constant thickness, and the counter pressure side skirt wall section central skirt region wall thickness is a constant wall thickness.

18. The piston of claim 17, wherein the pressure side skirt wall section upper central skirt region wall thickness and the pressure side skirt wall section lower central skirt region wall thickness are a different thickness than the counter pressure side skirt wall section central skirt region wall thickness.

19. The piston of claim 17, wherein a wall thickness of the pressure side skirt wall section lateral skirt connections is greater than the upper central skirt region wall thickness and the lower central skirt region wall thickness; and a wall thickness of the counter pressure side wall section lateral skirt connections is greater than the central skirt region wall thickness.

20. The piston of claim 17, wherein the counter pressure side skirt wall section central skirt region continually decreases in a lateral width as the central skirt region extends from a lower edge of the counter pressure side skirt wall section toward the piston upper portion.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] An exemplary embodiment of the invention is shown in simplified form in the drawings. In the drawings:

[0014] FIG. 1 is a cross sectional view of one example of the piston invention depicting the counter pressure side of the piston.

[0015] FIG. 2 is an alternate view of the cross sectional view of the piston shown in FIG. 1.

[0016] FIG. 3 is a cross sectional view of one example of the piston invention of FIG. 1 depicting the pressure side of the piston.

[0017] FIG. 4 is an alternate view of the cross sectional view of the piston shown in FIG. 3.

DETAILED DESCRIPTION

[0018] The exemplary embodiment is based on a piston of an internal combustion engine, said piston comprising an upper piston portion 1 (piston top), in which the ring zone 2 is located, wherein, starting at the upper piston portion 1, two opposing supporting skirt wall sections 4 (pressure side), 5 (counter pressure side) are provided and the two supporting skirt wall sections are interconnected via connecting walls 6, 7 that are set back relative to the outer diameter of the piston, wherein each connecting wall is provided with a pin bore for receiving a pin. Such a piston can be manufactured in a number of ways (for example, by casting, forging, or the like). It can be manufactured from one single part or consist of two (for example, top part and bottom part) or even of more than two parts, which are interconnected in a suitable manner, in particular, by means of a non-detachable joining process, such as welding or the like.

[0019] FIGS. 1 and 2 show a cross section of a piston according to the invention, providing a view into the interior of the piston depicting the counter pressure side of the piston. The cross section is in an area between a supporting skirt wall section with the reference sign 5 and the pin bore, in FIG. 2 this pin bore is shown as an outline. Thus, when viewing FIGS. 1 and 2, the inside area of the supporting skirt wall section 5 on the counter pressure side is viewed from the direction of the piston pin. Incidentally, the same also applies to the cross section shown in FIGS. 3 and 4, in which the inside area of the supporting skirt wall section 4 on the pressure side is viewed from the direction of the piston pin.

[0020] The internal view of the piston according to both FIGS. 1 and 2 relates to the counter pressure side. A central skirt region with the reference sign 15 can be seen, which is part of the supporting skirt wall section 5. This central skirt region 15 has an invariable wall thickness in the range of 1% to 3% of the nominal diameter (DN) of the piston. The lateral areas of this central skirt region 15 transition into lateral skirt connections 8 and 9. The skirt connections 8 and 9 are rounded (curved) and connect to the set-back connecting walls 6 and 7. In an upper area 19 of the respective supporting skirt wall section 5 said skirt wall section is joined to or transitions into the upper piston portion 1, also in a rounded (curved) manner The upper area 19 transition takes place via a connection to a ring zone bulge 12. The ring zone bulge 12 is located at the level of a ring zone 2, in particular approximately at the level of the lowest (or bottom) ring groove 20. This connection can be seen very clearly in FIG. 1. In the FIGS. 1 and 2 example, the central skirt region 15 extends from the skirt wall section 5 lower edge to the connection radius of the ring zone bulge 12. In one example, the central skirt region 15 has an invariable wall thickness of 1-3% of the nominal diameter of the piston.

[0021] FIG. 2 schematically shows the height or position of a pin bore axis 18 of a pin bore extending in a dash-dotted plane. In relation to this, an area 22 with an increasing connection radius of 14% to 20% of the nominal diameter of the piston is provided (height 14-20% of DN), with an area 24 with an invariable connection radius of 9% to 15% of the nominal diameter of the piston (height 9-15% of DN) following below this area 22 of the increasing connection radius. In one example, the area of increasing connection radius 22 is from 5-8% to 15-20% of the nominal diameter of the piston. In another example, the invariable connection radius for area 24 is 5-8% of the nominal diameter of the piston (below the pin bore axis 18).

[0022] Analogous to FIGS. 1 and 2, FIGS. 3 and 4 show a view of the interior of the piston on the pressure side. Here, it can be seen that the supporting skirt wall section 4 has a lower central skirt region 14 that transitions into the set-back connecting walls 6 and 7 in a rounded (curved) manner via a respective lateral skirt connection 16 and 17. The lower central skirt region 14 has an invariable wall thickness of 1% to 3% of the nominal diameter of the piston. The upper end of the lower central skirt region 14 transitions into an upper central skirt region 13 via a rounded (curved) area. The upper central skirt region 13 has an invariable wall thickness of 2.5% to 6% of the nominal diameter of the piston. Thus, there are two central skirt regions 13 (upper) and 14 (lower) on the pressure side of the piston, which have different wall thicknesses. In contrast, there is only one central skirt region 15 with an invariable uniform wall thickness on the counter pressure side of the piston. The upper end of the upper central skirt region 13 again transitions via the ring zone bulge 12 into the upper piston portion 1 of the piston. In one example, the lateral skirt connection 16, 17 has an invariable radius of 9-17% of the nominal diameter of the piston.

[0023] FIG. 4 again shows the dash-dotted plane in which the position or height of the longitudinal pin bore axis 18 of the pin bore is located. An upper end portion of the upper central skirt region 13 is located above this plane so that a lower end portion of the upper central skirt region 13, in which it has the invariable wall thickness, starts below this plane. A height 26 of an area of the upper end portion of the upper central skirt region 13 is 4% to 9% of the nominal diameter of the piston. The lower central skirt region 14 has a height 28 of an area of 11% to 19% of the nominal diameter of the piston. In one example, the area lower central skirt region 28 is located 90-100% below the pin bore axis 18. In another example, the upper central skirt region 26 is located 80-100% above the pin bore axis 18. An exemplary embodiment according to FIG. 4 shows that the lower end portion of the lower central skirt region 14 also forms the lower edge of the piston.

[0024] In principle, the central skirt regions 13, 14, 15 provided in the piston, in particular the single central skirt region 15 on the counter pressure side and, in particular, the two central skirt regions 13 and 14 on the pressure side, have their respective invariable wall thickness (thickness) in their respective area. This respective wall thickness increases progressively with the rounded (curved) transition in the direction of the set-back connecting walls 6, 7 and with the rounded (curved) ring zone bulge 12 in the direction of the upper piston portion 1. This means that both the supporting skirt wall section 5 on the counter pressure side and the supporting skirt wall section 4 on the pressure side have areas of invariable wall thickness and, adjacent to them, areas with increasing wall thickness.

[0025] The above percentages may vary upward or downward by 1% or by 5% or by 10% depending on the application of the piston.

LIST OF REFERENCE SIGNS

[0026] 1. Upper piston portion

[0027] 2. Ring zone

[0028] 3. Piston bottom part

[0029] 4. Skirt wall section (of pressure side)

[0030] 5. Skirt wall section (of counter pressure side)

[0031] 6. Connecting wall

[0032] 7. Connecting wall

[0033] 8. Lateral skirt connection

[0034] 9. Lateral skirt connection

[0035] 10. Undercut

[0036] 11. Undercut

[0037] 12. Ring zone bulge

[0038] 13. Upper, central skirt region (of pressure side)

[0039] 14. Lower, central skirt region (of pressure side)

[0040] 15. Central skirt region (of counter pressure side)

[0041] 16. Lateral skirt connection

[0042] 17. Lateral skirt connection

[0043] 18. Pin bore axis

[0044] 19. Connection to ring zone bulge (of counter pressure side)

[0045] 20. Bottom/lowest ring groove

[0046] 22. Area of increasing connection radius (Height 14-20% DN) (of counter pressure side)

[0047] 24. Area of invariable connection radius (Heights 9-15% DN) (of counter pressure side)

[0048] 26. Area upper central skirt region (Height 4-9% DN) (of pressure side)

[0049] 28. Area lower central skirt region (Height 11-19% DN)