EP0373689A1 - Oil-cooled piston for internal-combustion engines - Google Patents

Abstract

In a constructed piston for internal-combustion engines, the upper and lower part (5, 2) are supported relative to each other on concentric bearing surfaces (10, 11) and are clamped to each other via expansion screws. In the annular area of the upper part, the piston possesses two compression rings and a lubrication ring and has blind holes (20) starting from the cooling chamber situated in the upper part and extending behind the fire web and the below the piston base. In order to avoid deposits in the blind holes (20), a channel (23) is provided in the supporting collar (8) of the lower part (2), which channel is connected to the blind holes (20) via bores which run in an inclined manner radially outwards. <IMAGE>

Description

The invention relates to a piston with oil cooling for internal combustion engines, in particular for medium-speed diesel engines, consisting of a lower part receiving the piston pin and a central upper part with inlet openings for the lubricating oil provided cooling space and the upper part supporting the ring field, which are perpendicular in their plane of separation Support the circular bearing surfaces on the piston axis, which are arranged on concentric support collars, against each other, are clamped together by screws guided through the support collars and the support surfaces, have a circumferential empty groove in the area of their parting plane, provided by a circumferential empty groove on the inner or outer circumference of the upper surface , on the radial inside or outside of the support collar of the bearing surface of the lower part of the ring fit adjacent to each other are centered, the ring field two compression rings un d has an oil ring receiving ring grooves, from which an empty groove extending behind the ring field branches off and blind hole bores running parallel to the piston axis from the cooling chamber into the central part of the piston crown and from the circumference of the cooling chamber from the cooling chamber inclining radially outwardly extending blind hole bores extend to the area behind the top land and the edge of the piston crown.

Such an oil-cooled piston for internal combustion engines described in DE-OS 37 09 969 has a lower weight due to a height of the top land of 6 to 15% of the piston diameter and a comparatively low compression height of 65 to 90% of the piston diameter and thus a small overall height. By arranging the large cooling surface Adequate cooling of the piston crown and ring section is achieved in blind holes and, on the other hand, the necessary elasticity with good fatigue strength is achieved by the arrangement and design of the empty groove in the area of the plane of separation of the upper and lower piston parts and the associated circular-cylindrical section extending behind the ring section.

However, it has been found in engine operation that deposits form on the walls, in particular the radially outwardly extending blind bores, which incline with respect to the plane of separation, which significantly impair the heat transfer from the edge area of the piston crown and from the area of the top land and the first annular groove to the cooling oil . The reason for this are relatively high surface temperatures due to a lack of cooling effect due to inadequate filling of the outer cooling oil holes as well as a lack of shaker and washing effects of the cooling oil. These two effects can be demonstrated by filming on the shaker test bench.

It is therefore the object of the present invention to design the oil-cooled piston described at the outset in such a way that an improved washing effect of the cooling oil on the walls of the blind bore holes which are inclined with increasing inclination with respect to the plane of separation and their better filling is achieved, although the temperature in the range the first ring groove should not fall below 180 ° C due to the existing risk of corrosion.

This object is achieved in that in the supporting collar of the lower part there is a circumferential groove with the opening in the parting plane, integrated in the cooling oil circuit, and each radially outwardly extending blind hole which is inclined with respect to the parting plane via at least one with respect to the Separation level is greater than the blind hole inclined radially outwardly extending hole is connected to the groove.

The preferred embodiment of the invention is that the inclination of the holes connecting the circumferential groove to the blind holes is 65 to 90 °.

To produce a high flow rate, the bores have a diameter of <10 mm, preferably 2 to 6 mm.

The width of the circumferential groove is expediently 5 to 20 mm and the depth 10 to 25 mm.

As part of the further development of the invention, this hole opens tangentially into the blind hole in order to ensure an optimal course of the cooling oil flow.

The arrangement of the circumferential groove and the holes with a comparatively small diameter connecting the blind holes with the groove, from which the cooling oil emerges at high speed, and their position in relation to the parting plane, makes it possible that even in the exposed areas of the pipe, which rises radially with respect to the parting plane to the outside of the blind holes, the heat incident there is removed as quickly as possible and the coking of the cooling oil is avoided or deposits are avoided.

The drawing shows a segment of the oil-cooled piston designed according to the invention along the piston axis and the pin axis direction on the one hand and the piston axis and the plane including the direction perpendicular to the pin axis direction on the other hand in an axionometric representation.

The piston is constructed from a gray cast iron, the piston pin (1) receiving the lower part (2) and a steel, the central cooling chamber (3) delimiting and the ring section (4) supporting upper part (5) with a flat combustion chamber bowl (6) . The lower part (2) and the upper part (5) are clamped together by expansion screws, not shown. The lower part (2) is set back on both sides of the horizontal plane enclosing the pin axis direction and on the piston foot side up to the lower end like a sinew against the outer circumference of the lower part (2) and the hubs (7) of the pin eyes are displaced towards the piston axis. The lower part (2) and the upper part (5) are supported against one another by means of annular support surfaces (10, 11), which are in their separation plane perpendicular to the piston axis and are attached to support collars (8, 9). The expansion screws are led through the support collars (8,9) and the contact surfaces (10,11). On the inner circumference of the support surface (11) of the upper part (5) there is an annular fit (12) which is centered on the inside of the support collar (8) of the support surface (10) of the lower part (2). Opposite the plane of separation of the upper part (5) and lower part (2) there is a circumferential empty groove (13) with a circular cylindrical section (14) which branches off at right angles and runs parallel to the piston axis and extends behind the ring section. The ring section (4) has two ring grooves (15, 16) for receiving compression rings and one ring groove (17) for receiving an oil ring. From the circumference of the cooling chamber (3), which is closed on the piston foot side by a vault-like bottom (18) with a drain opening (19) for the cooling oil, the radially outward slope extends at an angle of 45 ° to the separation level blind holes (20) running behind the top land (21) and under the area of the rim of the piston crown. Starting from the refrigerator (3) are also Coaxial blind holes (22) are arranged in the central part of the piston head in a hexagonal configuration, not shown. In the support collar (8) of the lower part (2) there is a circumferential groove (23) with the opening in the support surface (10), to which cooling oil is supplied via several bores (not shown) running parallel to the piston axis. The blind hole bores (20), which are inclined radially outward and increase in relation to the plane of separation, are bores (24) with the groove (24) which extend radially outward more than the blind hole bores (20) through the support collar (9) of the upper part (5) and have the groove ( 23) and enter tangentially into the blind holes (20). The lower part (2) can also consist of an aluminum piston alloy.

The advantage achieved with the invention is to be seen in particular in the fact that the formation of a coke layer or of deposits on the radially outwardly extending blind bores which are inclined with respect to the plane of separation does not occur without the advantageous effects of the piston being impaired.

Claims (5)

1. Piston with oil cooling for internal combustion engines, in particular for medium-speed diesel engines, consisting of a lower part receiving the piston pin and a central cooling space provided with circumferential inlet openings for the cooling oil and the upper part bearing the ring field, which is perpendicular to the piston axis in its plane of separation support lying circular support surfaces arranged on concentric support collars against each other, are clamped together by screws guided through the support collars and the support surfaces, have a circumferential empty groove in the area of their parting plane, provided by an outer groove on the inner or outer circumference of the support surface of the upper part ring fit against the radially inner or outer side of the support collar of the support surface of the lower part, the ring field accommodating two compression rings and an oil ring Has annular grooves, an empty groove extending behind the ring field branches off from the cooling space and blind holes extending parallel to the piston axis from the cooling space into the central part of the piston crown, and from the circumference of the cooling space, blind holes, which are inclined radially outwards and rise towards the area, from the circumference of the cooling space extend behind the top land and the edge of the piston crown, characterized in that in the support collar (8) of the lower part (2) there is a circumferential groove (23) with the opening in the plane of the bearing surface (10) and each opposite the separation plane increasing inclined radially outwardly extending blind hole (20) greater than at least one greater than the separation plane the blind bore, which is inclined radially outwards, is connected to the groove by the bore (24) running through the supporting collar of the upper part. 2. Piston according to claim 1, characterized in that the inclination of the bores (24) is 65 to 90 °. 3. Piston according to claims 1 and 2, characterized in that the bores (24) have a diameter of <10 mm, preferably 2 to 6 mm. 4. Piston according to claims 1 to 3, characterized in that the width of the groove (23) is 5 to 20 mm and the depth is 10 to 25 mm. 5. Piston according to one or more of claims 1 to 3, characterized in that the bores (24) open tangentially into the blind bores (20).

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