DE2203847A1 - Pistons for internal combustion engines or compressors - Google Patents

Description

Wellworthy Limited, Ampress Works, Lymington, Hampshire, England.

Pistons for internal combustion engines or compressors

The invention a piston for internal combustion engines or for compressors.

In operation, the piston of an internal combustion engine or a compressor is periodically exposed to a high compressive load subject in the direction of the piston axis. This load rests on the piston pin, which in turn carries the load substantially perpendicular both to the piston axis and to the axis of the bore of the piston pin on the normally cylindrical walls of the Piston pin bore transfers. These bore walls are therefore highly stressed and can eventually break.

The invention is based on the object of eliminating this risk.

According to the invention is a piston for an internal combustion engine or a compressor designed in such a way that a segment of the otherwise cylindrical wall of the piston pin bore except on one side of a plane containing the axis of the piston pin bore and parallel to the piston axis runs.

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This one side is preferably adjacent to the side of the piston which is not subjected to thrust.

An exemplary embodiment of the invention is described below with reference to the drawing. In the drawing show:

1 shows an axial section of a piston of an internal combustion engine according to the invention,

Fig. 2 is a section along the line 2-2 according to Fig.l,

3 shows a section similar to FIG. 2 of a further embodiment of a piston of an internal combustion engine designed according to the invention.

The piston shown in Figures 1 and 2 is cylindrical and comprised a piston head 10 with a combustion recess 12 in the top surface. The cylindrical surface of the head part 10 includes a plurality of circumferential annular grooves 14. An open-ended sleeve extends from the piston head 10 downward and is preferably made in one piece with the piston head. Two piston pin bearing lugs Ij5 at a distance from one another, which are also made in one piece with the piston head 10, protrude diametrically inward.

The piston head 10, the sleeve 16 and the bearing lugs 18 are conventionally made in one piece from aluminum or an aluminum alloy poured

Each of the piston pin bearing lugs 18 is provided with a substantially cylindrical bore 20 is provided, as will be explained in detail below. The bores 20 are aligned coaxially with one another and together form the piston pin bore · The axis of the piston pin bore 20 is denoted by 21 and intersects the Piston axis 22.

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The piston is in the cylinder (not shown) of an internal combustion engine (or a compressor) reciprocally supported and connected to the crankshaft (not shown) of the engine via a cylindrical piston pin 23 and a connecting rod, not shown tied together. The piston pin 23 is from the piston pin bore 20 stored and the upper end of the connecting rod engages around the piston pin 23 between the piston pin bearing lugs 18. The lower end the connecting rod is mounted on an eccentric crank pin of the crankshaft.

When the fuel-air mixture is in the cylinder space above the piston is ignited and the combustion takes place, then the piston is displaced in the direction of its axis 22 downwards and it is consequently subjected to a high compressive load along axis 22. Assuming that the piston shown in Pig.l his Crankshaft, whose axis runs perpendicular to the plane of the drawing according to Pig. 1, drives clockwise, then the left side is 24 of the sleeve 16 according to Pig.l, the thrust surface, while the right side 25 is the non-thrust-loaded surface.

The compressive load of the piston is via the piston pin lugs l8 transferred to the piston pin 23, which in turn has a transverse Load, i.e. perpendicular to the axes 21 and 22, is transmitted to the walls of the piston pin bore 20. This transverse load creates a distortion of the piston pin bearing lugs 18 and des Piston pin 23. The distortion is particularly prevalent with light, hollow piston pins such as those shown in the drawing because they tend to change into an elliptical shape under the compressive load. In addition, the wall of the Cylinder exerts a considerable force on the thrust surface 24 of the Sleeve 16 and this force is also transmitted to the piston pin 23. The main axis of the elliptical or oval shape, which the piston pin assumes under load can therefore be somewhat opposite to a perpendicular to the piston axis 22 and to the axis 21 of the

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Piston pin bore 20 may be inclined, the inclination being upward runs from left to right according to Fig.l.

To avoid overstressing the walls of the piston pin bore 20 To avoid a segment 26 ater another cylindrical one Wall on only one side of a plane containing the axis 21 of the piston pin bore 20 and parallel to the piston axis 22 runs, provided with a recess. This recessed section creates a space for the major axis of the in the oval Shape passing piston pin and it becomes the tendency of the piston reduced to tear above the piston pin bore after the head part 10 of the piston.

In the embodiment illustrated in Pig. 1 and 2, this is the case recessed segment 26 of the non-sheared surface 25 of the sleeve 16 closer than the thrust surface 24 and extends over an angle of about 60 ° ~ 8o °. The center line of the segment recess 26 is employed after the piston head 10 relative to the normal to the axes 21 and 22 by approximately 50 °, so that the Segment recess 26 closer to the top of the piston pin bore lies as the lower part of this hole.

The extent of the recess 26 is in the direction of the axis 22 of Piston pin bore 20 essentially constant, as shown in FIG evident. The segment recess 26 can expediently be produced by means of an end mill, the diameter of which is slightly smaller than the diameter of the bore 20, whereby this milling cutter is set with its axis slightly offset from the axis 21 «

The piston pins also show a tendency to move slightly below the Influence of the load to bend on its end sections on the bearing lugs or the oppositely directed force that is im Middle section engages on the connecting rod, is applied.

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This curvature also stresses the piston pin bore, with the effect is greatest in those sections of the bore that are closest to the piston axis.

This further stress is in the embodiment according to PigO decreased. In PigO are the Pig.1 and 2 corresponding Parts have been given the same reference numerals to which an a is appended. Bs can be seen that the depth of the segment recess 26a in the two piston pin bearing bores 20a in each bearing shoulder l8a axially from the outside to the axis 22a of the piston increases towards. The recess 26a can expediently be produced from the outside by means of a pinger milling cutter, the one Has a diameter which is slightly smaller than the diameter of the bore 20 and which is at a small angle, typically is employed at an angle of 1 ° with respect to the axis 21a.

Bs has been shown that the arrangement of the segment recess 26 or 26a in the wall of the piston pin bore 20 or 20a and only in one side of the plane which is the axis of the bore contains and runs parallel to the piston axis, the cracking stresses can be significantly reduced, which the Bore through the piston pin 2j5 or 2Ja is exposed. aside from that is the arrangement of a segment recess only on one side of this Easier and more economical to produce level than, for example, providing segment recesses on both sides of the level and in addition, better storage of the piston pin is obtained under lateral load conditions.

Numerous modifications can be made within the scope of the invention will. For example, these segment recesses 26 or 26a could be symmetrical between the upper and lower surfaces of the

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Piston pin bores may be located or they could be on the other side of the plane containing the axis of the piston pin bore and is parallel to the piston axis (i.e. on the side adjacent to the thrust surface 24 or 24a of the sleeve 16 or 16a lies). In addition, the gudgeon pin bores of the pistons could have recesses according to the invention in other ways than described be provided, e.g. for pistons in which the axes of the piston pin bores run somewhat offset to the piston axis.

Claims

209835/0733

Claims (7)

Patent claims: Pistons for an internal combustion engine or a compressor with a piston head and a piston pin bore, thereby marked, that a segment recess (26,26a) in the rest of the cylindrical Wall of the piston pin bore (20,2GeJ) is only provided on that side of a plane which the axis (21,21a) of Contains piston pin bore and runs parallel to the piston axis (22, 22a). 2. piston according to claim 1, characterized in that said side is adjacent to the non-thrust-loaded Side (25) of the piston. 3. Piston according to claim 1 and 2, characterized in that it is marked that the segment recess of the wall extends over an angle between 60 ° and 80 °. 4. piston according to claims 1 to 3, characterized in that most of the segment recess is on the head side a plane through the piston pin axis (21,21a) and normal to the piston axis (22,22a). 5. Piston according to claims 1 to 4, characterized in that two spaced-apart piston pin bearing lugs (I8, l8a) stand diametrically inwards from the head part and 209835/0733 that the piston pin bore from two axially out-Sighted each other Bore cuts consists in the piston pin bearing lugs are trained. 6. Piston according to claim 5 * characterized in that the depth of the recess in each bore section in Direction of the axis of the bore is essentially the same. 7. piston according to claim 5 * characterized in that the depth of the recess in each bore section is axial increases from the outside towards the piston axis. 209835/0733 Blank page