EP0335440B1

EP0335440B1 - Device for grinding a bearing journal of the crankshaft of a combustion engine, in particular a diesel engine

Info

Publication number: EP0335440B1
Application number: EP89200704A
Authority: EP
Inventors: Cornelis Johannes Aarts; Gerardus Hendrikus Van Beurden
Original assignee: Individual
Current assignee: Individual
Priority date: 1988-03-29
Filing date: 1989-03-17
Publication date: 1992-08-19
Anticipated expiration: 2009-03-17
Also published as: NO891296D0; GR3005964T3; NO891296L; EP0335440A1; DE68902496T2; NO171098C; NO171098B; ES2034578T3; ATE79583T1; NL8800793A; DE68902496D1

Abstract

Device for grinding a bearing journal (18) of the crankshaft of a combustion engine, comprising a support (1, 3) having mounted thereon two spaced apart parallel extending upright elements (4) which are provided at their top ends with a circular arc-shaped, concave guide edge (6) so that the imaginary straight line through their centre points forms the axis of an imaginary cylindrical surface, the device also having at least one grinding element (11), the grinding surface of which touches said imaginary cylindrical surface at least along a line, so that when the device is in operation - in which case the crankshaft is rotated and the journal to be treated rotates about its axis, which here essentially coincides with the said imaginary axis - the journal part to be ground is led in an essentially perfect circular path past the grinding surface, while this surface is held in a particular fixed position relative to the said axis.

Description

The invention relates to a method for grinding a bearing journal of the crankshaft of a combustion engine, in particular a diesel engine without removing it from the engine.
In diesel engines, in particular those used for the propulsion of ships, a so-called wear ridge often occurs on one or more of the bearing journals of the crankshaft after a long period of use, a phenomenon which results from the lubricating groove present in the bearing shells. For futher good functioning of the engine, such a wear ridge must be removed by grinding the bearing journal in question absolutely round again to a diameter slightly smaller than the original diameter.
In DE-A-1577434 a hand operated device for grinding a bearing journal of the crankshaft of e.g. a diesel engine is disclosed, which device comprises a support provided with handles and in which two rollers are journaled of which one roller is driven, over which an endless grinding belt is passed. Between said rollers a pressure member is removably connected to said support, said member having a concave groove at its lower pressure surface, said groove having a curvature which corresponds with the curvature of the journal to be treated. Further guiding elements are provided on both sides of the pressure member which bear against the surface of the journal to be treated at points which are situated on two spaced apart lines extending parallel to the axis of the journal to be treated.
The known devices for grinding bearing journals of a crankshaft are designed in such a way that they can rotate about the bearing journal in question. Very thin bearing shells are, however, used nowadays in engines, and after removal they leave too little space for these devices.
In these engines the bearing journal therefore cannot be ground on the spot inside the engine, so that the crankshaft has to be dismantled completely and taken off the vessel, which generally means that an opening has to be burned out in the ship's skin, and the crankshaft is then treated on a special crankshaft grinding machine and subsequently replaced in the engine.
It goes without saying that this process is very expensive and takes a long time, during which the vessel is out of service.
The object of the invention is to provide a method of the type mentioned above, by which the crankshaft of even today's engines with thin bearing shells can be treated in the engine as regards grinding one or more of its bearing journals.
This object is achieved in that in the method according to the invention a device comprises a support having mounted thereon two upright elements which extend essentially along two parallel planes spaced apart, and which are provided at their top ends with a circular arc-shaped, concave guide edge in such a way that the imaginary straight line through the centre points of the two circular arcs is perpendicular to the two upright elements and forms the axis of an imaginary cylindrical surface, the diameter of each circular arc being essentially equal to the original diameter of the bearing journal to be treated, and the shortest distance between the guide edges being smaller than the axial length of the bearing journal to be treated, but being greater than the axial dimension of the attacked part of this journal, and the device also has at least one grinding element which is fitted below the guide edges between the upright elements, and the grinding surface of which touches the above-mentioned imaginary cylindrical surface at least along a line, is held by means which are also present with said guide edges pressed against the journal to be treated on either side of the grinding surface, the crankshaft is rotated so that the journal to be treated rotates about its axis, which essentially coincides with the above-mentioned imaginary axis and the journal part to be ground is conveyed in an essentially absolutely circular path along the grinding surface, while this surface is held in a particular fixed position relative to the said axis.
The invention relates also to a device for executing the method which device comprises a support having mounted thereon two upright elements which extend essentially along two parallel planes spaced apart, and which are provided at their top ends with a circular arc-shaped, concave guide edge in such a way that the imaginary straight line through the centre points of the two circular arcs is perpendicular to the two upright elements and forms the axis of an imaginary cylindrical surface, the diameter of each circular arc being equal to a predetermined diameter and the shortest distance between the guide edges having a predetermined dimension, and the device also has at least one grinding element which is fitted below the guide edges between the upright elements, and grinding surface of which touches the above-mentioned imaginary cylindrical surface at least along a line, and means to ensure that the guide edges can be held pressed against the journal to be treated on either side of the grinding surface.
Thus a device designed in this way does not rotate about the journal to be treated, but is put against the journal to be treated at a place where there is always sufficient space inside the engine, generally below the journal to be treated.
The grinding element is preferably disposed adjustably in such a way between the upright elements that the grinding surface can be moved parallel to itself at least in the direction towards the imaginary axis, so that, when it is found after some time that the grinding surface of the grinding element is no longer lying sufficiently against the journal to be able to carry out its grinding action, this grinding surface can be moved slightly,
The grinding element is disposed adjustably in an advantageous manner between the upright elements in such a way that the ends of the line along which the grinding surface essentially touches the above-mentioned cylindrical surface can be moved independently of each other towards and away from the imaginary axis, so that the grinding surface can be set accurately.
The grinding element preferably has a rotary roller, whose axis of rotation runs essentially parallel to the above-mentioned imaginary axis, the above-mentioned adjustability being obtained through the fact that the roller is mounted on its axis of rotation, said axis being provided at both ends with an eccentric journal, said journals being in line with each other and each being accommodated in an eccentric sleeve which is rotatably connected to the upright element in question.
Since the use of an endless grinding belt as the grinding surface offers many advantages in general for grinding operations the rotary roller is preferably a supporting roller for an endless grinding belt running over the roller and also being guided around at least one drive roller.
The above-mentioned pressure means are preferably formed by a compressed gas-filled cushion under the frame. This ensures that any movements of the crankshaft which may occur during the grinding are followed.
It can be desirable to prevent the guide edges from shifting in the axial direction relative to the journal to be treated. For this, outward-projecting guide elements can be disposed on the upright elements, near their guide edges.
The invention is described in greater detail with reference to the drawing, in which:

Fig. 1 shows an example of an embodiment of the device according to the invention;
Fig. 2 shows a section along the line II-II in Fig. 1; and
Figs. 3 and 4 show more clearly the adjustment means for the pressure roller.

As shown in Fig. 1, the device comprises a frame made of a U-section 1, with a U-section 3 fastened thereto by means of strips 2. Two upright elements 4, 4′, in the form of plates, are mounted on either side of the U-section 3, and are held extending accurately parallel to each other by the spacing sleeves 5. Each plate 4, 4′ is provided at its top end with a circular arc-shaped concave recess along which a guide edge 6, 6′ of, e.g., aluminium is disposed.
Extending between the plates 4 and 4′ is a shaft 7 which at both ends merges into an eccentric journal 8, 8′, said journals 8, 8′ being in line with each other. These journals 8, 8′ are accommodated in eccentric sleeves 9, 9′ which are fixed rotatably inside apertures disposed in the plates 4, 4′.
A supporting roller 10 is mounted on the shaft 7 by means of ball bearings in such a way that it rotates about the shaft 7. An endless grinding belt 11 runs round the supporting roller 10 and also runs around a driven roller 12 and a tensioning roller 13. The shaft of the tensioning roller 13 can be moved to and fro along the forks 14 by means of adjusting screws (not shown), and said forks 14 can be moved jointly relative to the frame 3 by means of the set bolt 15 with locking nut.
Guide blocks 16, 16′, which are adjustable due to the fact that they are provided with eccentric apertures, are fitted on the outsides of the plates 4, 4′.
The whole device is supported by an air cushion 17 when it is in operation.
When the device is in operation, it is placed under the bearing journal 18 of a crankshaft 19 to be treated, and by increasing the air pressure inside the air cushion 17, the guide edges 6, 6′ are pressed against the non-attacked parts 18′ of the bearing journal 18. Since these non-attacked parts 18′, with the original diameter of the journal 18, are still absolutely round, the imaginary axis through the centre points of the circular arcs formed by the guide edges 6, 6′ will coincide with the axis of the journal bearing 18. The crankshaft 19 is then turned slowly by means of the turning engine, for example at a speed of 3/4 r.p.m., while the motor driving the driven roller 12 is put into operation, so that the grinding belt 11 is put into rotary motion, while the part of this belt running over the supporting roller 10 has a grinding effect on the bearing journal 18.
Due to the fact that the shaft 7 of the supporting roller 10 is fixed in plates 4, 4′ in a specific position relative thereto, said shaft 7 and thereby also the top part of the periphery of the supporting roller 10 is in a fixed position relative to the above-mentioned imaginary axis, and therefore also relative to the axis of the journal to be treated, so that when said journal is rotated the attacked part thereof to be ground is conveyed along the part of the grinding belt 11 running over the supporting roller 10, this part being at a fixed distance from the axis of the journal 18. The shaft 7 of the supporting roller 10 is generally set in such a way that said shaft runs parallel to the above-mentioned imaginary axis, so that the journal part to be ground is ground absolutely round to a specific diameter over the entire axial length thereof. If, however, the journal 18 has a certain taper, it can be corrected by turning the sleeves 9, 9′ slightly, so that the shaft 7 can be set slightly at an angle.
If necessary, the shaft - and thus the periphery of the supporting roller - can be moved towards or away from the journal 18 to be treated, by turning the shaft 7 a little.
In order to prevent the device from shifting in the axial direction relative to the journal 18, the guide blocks 16, 16′ are forced against the particular radius of the journal 18, as shown in Fig. 2.

Claims

1. A method of grinding a bearing journal of the crankshaft of a combustion engine, in particular a diesel engine without removing it from the engine, characterized in that a device which comprises a support having mounted thereon two upright elements which extend essentially along two parallel planes spaced apart, and which are provided at their top ends with a circular arc-shaped, concave guide edge in such a way that the imaginary straight line through the centre points of the two circular arcs is perpendicular to the two upright elements and forms the axis of an imaginary cylindrical surface, the diameter of each circular arc being essentially equal to the original diameter of the bearing journal to be treated and the shortest distance between the guide edges being smaller than the axial length of the bearing journal to be treated, but being greater than the axial dimension of the attacked part of this journal, and which device further comprises at least one grinding element which is fitted below the guide edges between the upright elements, and the grinding surface of which touches the above-mentioned imaginary cylindrical surface at least along a line, is held by means which are also present with said guide edges pressed against the journal to be treated on either side of the grinding surface, the crankshaft is rotated so that the journal to be treated rotates about its axis, which essentially coincides with the above-mentioned imaginary axis, and the journal part to be ground is conveyed in an essentially absolutely circular path along the grinding surface, while this surface is held in a particular fixed position relative to the said axis.

2. Device for executing the method according to claim 1, characterized in that the device comprises a support (1, 3) having mounted thereon two upright elements (4, 4′) which extend essentially along two parallel planes spaced apart, and which are provided at their top ends with a circular arc-shaped, concave guide edge (6, 6′) in such a way that the imaginary straight line through the centre points of the two circular arcs is perpendicular to the two upright elements and forms the axis of an imaginary cylindrical surface, the diameter of each circular arc being equal to a predetermined diameter and the shortest distance between the guide edges having a predetermined dimension and the device also has at least one grinding element (11) which is fitted below the guide edges between the upright elements, and the grinding surface of which touches the above-mentioned imaginary cylindrical surface at least along a line, and means (17) to ensure that the guide edges can be held pressed against the journal to be treated on either side of the grinding surface.

3. Device according to claim 2, characterized in that the grinding element (11) is disposed adjustably in such a way between the upright elements (4, 4′) that the grinding surface can be moved parallel to itself at least in the direction towards the imaginary axis.

4. Device according to claim 2 or 3, characterized in that the grinding element (11) is disposed adjustably between the upright elements (4, 4′) in such a way that the ends of the line along which the grinding surface essentially comes into contact with the above-mentioned cylindrical surface can be moved independently of each other towards and away from the imaginary axis.

5. Device according to claims 2-4, characterized in that the grinding element (11) has a rotary roller (10) whose axis of rotation runs essentially parallel to the imaginary axis.

6. Device according to claim 5, characterized in that the roller (10) can rotate about an axis which is provided at both ends with an eccentric journal (8, 8′), said journals being in line with each other and each being accommodated in a sleeve (9, 9′) which is connected to the upright element in question.

7. Device according to claim 6, characterized in that the sleeves are eccentric sleeves (9, 9′) which are rotatably connected to the upright elements.

8. Device according to claims 5-7, characterized in that the roller is a supporting roller (10) for an endless grinding belt (11) running over the roller and also being guided round at least one drive roller (12).

9. Device according to claims 2-8, characterized in that the above-mentioned pressure means are formed by a compressed gas-filled cushion (17) under the frame (1).

10. Device according to claims 2-9, characterized in that outward-projecting guide elements (16, 16′) are provided on the upright elements (4, 4′), near their guide edges (6, 6′).