This application claims priority to German Patent Application No. 10 2015 206 082.9, filed Apr. 2, 2015, the contents of which are hereby incorporated by reference in its entirety.
The present invention relates to a grinding machine for the external cylindrical grinding of hollow shafts, in particular of camshafts. The invention furthermore relates to a method for the external cylindrical grinding of hollow shafts.
From EP 1 955 808 A1 a generic grinding machine is known for the external cylindrical grinding of hollow shafts with at least one grinding disc and a support disc and two centrings for the face-side fixing of the hollow shaft during the grinding. The drive axis of the support disc, of the grinding disc and of the hollow shaft which is to be ground are aligned parallel here. The drive of the support disc serves for the driving of the hollow shaft during grinding. In addition, for grinding, a means is present for measuring the contact pressure of the support disc onto the hollow shaft, in particular a pressure sensor. Hereby, advantages of the grinding between points are to be combined in a simple manner with those of centreless grinding.
From DE 10 2013 214 226 A1 a method is known for the centreless grinding of shaft parts, in which the shaft part which is to be ground, having axial centrings at its face sides, is ground in a rotatably driven manner in a conventional manner in centreless grinding at a distance between grinding disc and support disc. The grinding disc and the support disc have a width which corresponds at least to the length of the shaft part which is to be ground. The shaft part is firstly ground at its end regions concentrically to the centrings, so that ground sections formed concentrically to the centrings are produced. This is followed by the grinding of the intermediate region lying between the end regions, followed by a dimensionally stable and geometrically accurate grinding of the complete shaft part to finished size on the basis of the ground sections at the end regions of the shaft part carried out concentrically to the centrings, resting on a support ruler.
The present invention is concerned with the problem of indicating for a grinding machine of the generic type an improved or at least an alternative embodiment which in particular enables a distinctly more precise cylindrical grinding.
This problem is solved according to the invention by the subject of the independent claim(s). Advantageous embodiments are the subject of the dependent claims.
The present invention is based on the general idea of indicating a grinding machine, by means of which an external cylindrical grinding of a hollow shaft between two centrings is made possible, wherein the arrangement of the grinding discs corresponds to that of a grinding machine for centreless grinding. Here, one of these centrings can be constructed as a centring stopper and can engage into the hollow shaft. In contrast to grinding machines known from the prior art, by means of which a hollow shaft is ground between two points, or in which the hollow shaft is ground in a centreless manner between a grinding disc and a support disc, in the grinding machine according to the invention, the hollow shaft is therefore held between points and at the same time, as in an arrangement for centreless grinding, is ground between a grinding disc and support disc. Therefore, the hollow shaft which is to be ground is actually statically overdetermined. So that a grinding becomes possible at all, on the one hand the elasticity resulting through the hollow shaft, and on the other hand the supporting force resulting through the support disc, must be coordinated with one another so that grinding can take place with a high degree of accuracy.
In addition, in an advantageous further development of the invention, the hollow shaft can be grasped on one side not on the chamfer, but in the interior diameter, such as for example by a stopper which is later added. Hereby, the coaxiality is, moreover, ground extremely accurately to a stopper which is later to be placed. In contrast to grinding machines known from the prior art, the grinding machine according to the invention has, furthermore, a ruler for adjusting or respectively supporting the position of the hollow shaft before or respectively during the grinding, wherein the grinding machine in addition is constructed such that an eccentric grinding of the hollow shaft in relation to the two parallel rotation axes of the grinding disc and the support disc becomes possible. For a particularly high degree of precision during grinding, the processing of the hollow shaft should take place in a region which lies outside, in particular over, the axes of the grinding disc and of the support disc. It applies here that the higher one is able to grind, all the higher is the grinding accuracy which is able to be achieved. With the use of a ruler, the hollow shaft can be, for example, firstly scaled roughly and then pushed into the final grinding position. The ruler can, however, also be used only for the additional support of the hollow shaft, and delivers only the amount ground off by the grinding disc. It has been found here that with a grinding of the hollow shaft with a distance of the rotation axis of the hollow shaft which is to be ground from a plane formed by the two rotation axes of the grinding disc and of the support disc of greater than 12 mm, in particular 15-17 mm is particularly advantageous. This high grinding position can be made possible through the simultaneous receiving of the hollow shaft in points. However, this distance can not be selected to be of an arbitrary size, because starting from a certain position the achievable accuracy also decreases again. The grinding itself takes place here in the grinding machine according to the invention through a synchronous delivery of grinding disc, support disc and ruler, whereby consistent system parameters can be achieved and the hollow shaft can be ground extremely precisely. In particular, a high true running accuracy can be achieved without loss of the centre, so that pre-processed functional sections, such as for example a thread, still run centrally to the ground shafts after the grinding process.
In an advantageous further development of the solution according to the invention, the grinding disc and the support disc are able to be delivered to the hollow shaft. Hereby, it is possible to cylindrically grind hollow shafts with different external diameters in one and the same grinding machine, or respectively to enable the delivery to the final dimension of the hollow shaft. Through the delivery speed, also, a differentiation can be additionally made between a roughing and finishing.
Expediently, the hollow shaft is adjustable by means of the ruler orthogonally to the plane or respectively the ruler readjusts by the amount which was ground off on the hollow shaft.
In an advantageous further development of the solution according to the invention, the support disc extends only over a length l1 of approximately 30-80% of the total length l2 of the hollow shaft. During the grinding, the hollow shaft is fixed between the centring stopper and the opposite centring and is supported by the grinding disc and the support disc. When a grinding and a simultaneous supporting by the adjustable ruler, provided according to the invention, takes place, the entire system would actually be statically overdetermined. So that during the grinding process sufficient elasticity is nevertheless present in the system, the support of the hollow shaft through the support disc or respectively the ruler does not take place on the entire length of the hollow shaft, as is otherwise usual, but exclusively in a partial region of approximately 30-80% of the total length of the hollow shaft. This and the elasticity resulting through the tube construction of the hollow shaft are able to be controlled without difficulty here with the setting of suitable parameters.
In a further advantageous embodiment of the grinding machine according to the invention, a drive of the hollow shaft takes place via the centring, in particular via an axial contact pressure, or via a carrier arranged on the centring, which carrier cooperates in a form-fitting manner with the hollow shaft or with a stopper arranged thereon. Alternatively, of course, the drive of the hollow shaft for grinding can also take place via the centring stopper arranged opposite the centring. Particularly the form-fitting cooperation between the centring stopper or respectively the centring and the hollow shaft or respectively a stopper arranged therein, can enable a loss-free torque transmission, in particular without friction losses. The centring stopper here can again be connected in a form- and/or force-fitting manner with the hollow shaft.
In a further advantageous embodiment of the solution according to the invention, at least one further grinding disc is provided for the external cylindrical grinding of a stopper joined with the hollow shaft. Therefore, with a first grinding disc for example the hollow shaft can be ground and with the at least one further grinding disc, the stopper can be ground simultaneously. Hereby, the entire hollow shaft, which can be constructed for example as a camshaft, can be produced economically.
In a further advantageous embodiment, the grinding disc, the support disc and the ruler are divided in axial length into individual working segments, so that also a camshaft provided with cam lobes can be ground by the grinding method which has already been described. Here, in particular, the bearing sections situated between the cams are ground cylindrically. The cam lobes then dip into the withdrawn regions lying between the individual working segments. Thus, for example, cast camshafts or respectively prefabricated constructed camshafts, in particular camshafts with thermally joined, pressed-on cams or cams fastened by internal high pressure forming, can be processed.
The present invention is further based on the general idea of indicating an improved method for the external cylindrical grinding of hollow shafts, in particular for external cylindrical grinding of camshafts, in which firstly the hollow shaft which is to be ground is fixed on the face side between a centring and a centring stopper. Subsequently, at least one grinding disc and at least one support disc are delivered to the hollow shaft which is to be ground. During the grinding, a rotation axis of the hollow shaft is now held by means of a ruler at least by a distance of a>12 mm, in particular a>15-17 mm outside a plane defined by the rotation axis of the at least one grinding disc and the support disc. Through the comparatively great eccentricity, a particularly high-precision grinding can be achieved. This high-precision grinding can be achieved, moreover, in that it takes place through a synchronous delivery of the grinding disc, of the support disc and of the ruler, whereby consistent system parameters can be achieved.
Expediently, the hollow shaft which is to be ground is supported during the grinding by the support disc only over a length l1 of 30-80% of the total length l2 of the hollow shaft. In the same way, preferably the hollow shaft which is to be ground is supported during the grinding by the ruler likewise only over a length l1 of 30-80% of the total length l2 of the hollow shaft. Hereby, a necessary elasticity can be provided, which at least partially compensates the static overdetermination due to the grinding disc, the support disc and the ruler.
For the processing of camshafts with cam lobes, the grinding disc, the support disc and the ruler can be respectively withdrawn in the regions of the cam lobes, i.e. can have an annular groove, or else can be interrupted, i.e. can segmented in axial direction, in order to enable a grinding of the bearing surfaces situated between the cam lobes.
Further important features and advantages of the invention will emerge from the subclaims, from the drawings and from the associated figure description with the aid of the drawings.
It shall be understood that the features mentioned above and to be further explained below are able to be used not only in the respectively indicated combination, but also in other combinations or in isolation, without departing from the scope of the present invention.
Preferred example embodiments of the invention are illustrated in the drawings and are explained in further detail in the following description, wherein the same reference numbers refer to identical or similar or functionally identical components.
The drawings show, respectively diagrammatically,
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As the grinding with the hollow shaft 2 with the grinding machine 1 according to the invention takes place by a simultaneous supporting of the hollow shaft 2, which is to be ground, by means of the grinding disc 4, the support disc 5 and the ruler 10, the system resulting herefrom is actually statically overdetermined. In order, however, to be able to give the system sufficient elasticity during the grinding process, the support of the hollow shaft 2, which is to be ground, by means of the support disc 5 takes place only on a limited axial length of the hollow shaft 2. It is conceivable here, for example, that the support disc 5 extends only over a length l1 (cf.
A drive of the hollow shaft 2 takes place here via the point 8, in particular via an axial contact pressure, or via a carrier 16 arranged at the point 8, which carrier cooperates in a form-fitting manner with the hollow shaft 2 or with a stopper 15 arranged thereon.
Additionally or alternatively, of course, a drive of the hollow shaft 2 can also take place via the centring stopper 9, in particular via an axial contact pressure, or via a carrier arranged at the centring stop 9, which carrier cooperates in a form-fitting manner with the hollow shaft 2 or with a stopper arranged thereon. Of course, it is also conceivable here that the centring stopper 9 is pressed into the hollow shaft 2 and thereby enables a torque transmission.
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The external cylindrical grinding of the hollow shaft 2, in particular of a camshaft 3, takes place here as follows:
Firstly, the hollow shaft 2 which is to be ground is fixed on the face side between a point 8 and a centring stopper 9. Subsequently, the at least one grinding disc 4 and the support disc 5 are delivered, in particular horizontally, to the hollow shaft 2 which is to be ground. During the grinding of the hollow shaft 2, the latter is pushed upward by means of the ruler 10 such that its rotation axis 14 has a distance of a>12 mm, advantageously a>15-17 mm to a plane 13 defined by the axes 11 and 12. Through the eccentric holding of the hollow shaft 2 during the grinding process, a particularly precise grinding can be brought about. This is made possible by the holding in centrings 6, 7. The distance a here may, of course, not assume values of arbitrary size here, because otherwise the accuracies which are able to be achieved also decrease again starting from a certain distance a. Thereby, not only will a high concentricity be enabled, also of functional surfaces, such as threads, already present on the hollow shaft 2, but the axial alignment can also be improved enormously.
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Number | Date | Country | Kind |
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10 2015 206 082.9 | Apr 2015 | DE | national |