DE3511631A1 - Guideway for a machine and method of manufacturing it - Google Patents

Abstract

The sliding and lubricating properties of a guideway for guiding a machine part, the surface (12) of which has small waves (22) with essentially straight peaks and valleys, are improved by the waves (22) forming an angle differing from 90 DEG with the longitudinal direction (24) of the guideway. During the manufacture of such a guideway by peripheral grinding with a rotating grinding wheel, the grinding is effected with an angle differing from 90 DEG between the rotational axis of the grinding wheel and the direction of the relative movement between grinding wheel and guideway. <IMAGE>

Description

Guideway for a machine

and processes for their preparation. The present invention relates to a guideway for a machine, in particular for a machine tool, as well as a method for making such guideways.

For the production of high-precision guides in precision machines, is in the case of a soft base material (e.g.

Gray cast iron) common, the guideway z. B. to mill and then by scraping Finishing the milled surfaces by hand.

Grinding has been used to machine hardened guideways and proven. The cup grinding and the peripheral grinding are known here. With cup grinding a cup-shaped grinding wheel with a front work surface is used when Circumferential grinding of a circular disk-shaped grinding wheel with a cylindrical working surface.

Both methods have their advantages and disadvantages. The peripheral grinding delivers better surface quality and the surface produced also looks better optically and makes a smoother impression.

The disadvantage of the circumferential cut, however, is that, depending on the Grinding wheel speed, the grinding wheel diameter, the state of balancing, the structure and the contamination of the grinding wheel, as well as the feed speed of the workpiece is very different, not defined and not reproducible Ripple occurs. The well-known tours run through the mountains and valleys of the Shafts perpendicular to the longitudinal direction of the guide and if two ground in this way, Opposite slightly wavy surfaces, this results in unfavorable sliding and lubrication conditions, in unfavorable cases, even in the micro range, it is not straight and bumpy Moving the guided machine part.

When grinding guideways with cup wheels, the conditions are In this respect a little cheaper, especially if a cross-cut is produced. However, experience has shown that a major disadvantage of the cup joint is that that you mostly have to use grinding wheels of relatively small diameter, the wear out more and clog more easily. Another disadvantage is that at the beginning and end of the guide to be ground (unless there is a detachable Extension is attached), other cutting conditions in the run-in and run-out phase present, which have the consequence that the specific contact pressure of the grinding wheel increases and the chip removal increases. The guides ground with cup wheels are therefore not completely straight and even until the end of the tour, so that one therefore in general, despite the disadvantages mentioned above, the peripheral grinding is preferred.

The present invention is based on the object of a guideway and to specify a method for their production by peripheral grinding that includes the above avoids the disadvantages described.

This object is achieved by the guideway characterized in claim 1 solved.

Developments of the subject matter of claim 1 an advantageous Process for its production and an advantageous device for carrying it out this method is the subject of claims 2 to 6.

The present method results in a deliberately generated waviness a contact pattern with a large number of evenly distributed lubricating wedges. Through this the same effect can be achieved as can only be achieved today by manual scraping the counter guides can be reached.

In the following the inventive idea with reference to the drawings explained in more detail. 1 a and 1b show a side view and top view, respectively a known guideway during grinding, and FIGS. 2a and 2b show a Side view or top view of a guide track according to the invention during the Grinding their surface.

In Fig. 1a a known guide track 10 is z. B. shown made of steel, the z. B. can be hardened at the surface 12. The web is made by a grinding wheel 14 ground with a cylindrical working surface 16. With this circumferential grind the axis of rotation 18 of the grinding wheel 14 extends at an angle of 900 with respect to the feed direction 20. In practice, circumferential grinding occurs in the ground Surface waves 22, the peaks and valleys of which are perpendicular to the longitudinal direction of the guideway 10 run. When a machine part, such as a support, is supported by two parallel guideways is performed, which have been ground in the manner described above, can a bumpy and non-rectilinear movement of the guided one in the micro range Machine part result with respect to the guideways.

These deficiencies are, as shown in Figures 2a and 2b, according to the invention thereby avoided that the axis 18 of the grinding wheel 14 when grinding the surface 12 of the guide track 10 does not run perpendicular to the feed direction 20, but rather forms with this one of 900 different angles. How big the deviation ("skew") chosen in practice depends to some extent on the dimensions of the guideway; in the case of wide guideways, the helix angle can generally be be chosen smaller than with narrow guideways.

However, the bevel should expediently be at least as large as that adjacent shafts, viewed perpendicular to the longitudinal direction of the guideway, overlap by at least one wave width.

The deviation of the angle between the grinding wheel axis of rotation 18 and Feed direction 20 can be at least 30, but it can also be smaller. The maximum deviation is preferably at most 200; it can be in special cases however, it can also be larger. In general, you will for manufacturing reasons Prefer the smallest possible helix angles.

The described inclination results in a micro-unevenness in the form of waves 22, whose straight crests and troughs are not as before perpendicular, but at the relevant angle obliquely to the longitudinal direction 24 of the guideway get lost. As a result, irregularities in the management of a support or the like avoided by two parallel guideways of this type and also the sliding and lubrication conditions are significantly improved because the wave troughs form a large number of evenly spaced lubricating wedges. Also any irregularities the working surface 16 of the grinding wheel 14 do not have as serious an effect as in the known case.

To produce the 1 "inclined circumferential grinding" according to the invention a flat or guideway grinding machine 26 is used, in which the grinding spindle axis 18 of the spindle head 28 at an angle different from 900 to the feed direction 20 of the grinding table 30 runs on which the elongated, straight to be ground Guide track 10 is spanned.

The advantages outlined above are already achieved if in the case of two guides, only one is produced according to the method described above and has microwaves running obliquely to its longitudinal direction.

When using two parallel guides of the type described here are, the corrugations in the two guides are preferably mirror images to each other, so they form a kind of herringbone pattern.

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Claims (6)

Guide track for a machine and method for its manufacture Claims 1. Guide track for guiding a machine part, the surface of which (12) small waves (22) with essentially straight wave crests and wave troughs having, characterized in that the shafts (22) one of 900 different Form an angle with the longitudinal direction (24) of the guideway. 2. Guide track according to claim 1, characterized in that the deviation of said angle of 90 degrees is at least so large that the waves are perpendicular seen to the longitudinal direction of the guideway, overlap by at least one wave width. 3. Guide track according to claim 1, characterized in that the deviation of said angle of 90 degrees is at least 3 degrees. 4. Guide track according to claim 1, 2 or 3, characterized in that that the deviation of said angle from 90 degrees does not exceed 20 degrees. 5. A method for producing a guideway according to claim 1, at which the surface of the guideway by circumferential grinding with a rotating Grinding wheel is ground while a feed of the guide track relative to the Grinding wheel takes place, characterized in that the grinding with from 900 different angle between the axis of rotation of the grinding wheel and the direction the relative movement between the grinding wheel and the guideway takes place. 6. Device for performing the method according to claim 5, with a grinding table (30) for clamping a guide track (10) to be ground and a spindle head (28) which has a work spindle rotatable about an axis (18) for has a peripheral grinding wheel (14), characterized in that the axis (18) the grinding wheel spindle has an angle different from 900 with the feed direction (24) forms.