EP2636482A1 - Workpiece processing system and method for detailed processing of a workpiece - Google Patents

Abstract

The system (10) has a workpiece (12) provided with workpiece outer surface (18) and inserted into groove-shaped recess (20). A superfinishing tool is provided for fine machining of the surface (22) of the groove-shaped recess. The superfinishing tool is in the form of a belt (14). The effect profile of effect portion is coordinated to a groove profile (24) of the groove-shaped recess. The effect portion is extended along the groove-shaped recess. The contact surface is made in contact with the surface of the groove-shaped recess. An independent claim is included for method for superfinishing of workpiece.

Description

description

The invention relates to a workpiece processing system, comprising a workpiece with a workpiece outer side, in which at least one groove-shaped recess running around a workpiece axis is introduced, and comprising a superfine machining tool for micromachining the surface of the groove-shaped recess.

In known workpiece machining systems, superfinishing tools in the form of finishing stones are used, which finish the surface of a groove-shaped depression of the workpiece. Such finishing stones are made of an abrasive material which is pressed against the surface of the groove-shaped depression.

The known workpiece machining systems allow high-quality machining of groove-shaped depressions, which serve for example as a raceway for rolling bearing body.

A highly accurate machining of the groove-shaped depressions is relatively time-consuming in the known workpiece machining systems. In particular, a very accurate positioning of the workpiece relative to the surface of the groove-shaped depression is required. In addition, only comparatively small average power can be achieved.

On this basis, the present invention has the object to provide a workpiece machining system, with which a high production quality and a short processing time can be realized.

This object is achieved in that the superfinishing tool is in the form of a belt having an extending along the belt effective portion that the active portion has a matched to a recess profile of the groove-shaped depression profile and that the active portion along a along the groove-shaped Well extending contact surface is in contact with the surface of the groove-shaped depression.

In the workpiece machining system according to the invention, a superfinishing tool in the form of a belt is provided. In contrast to a rigid superfinishing tool, such a belt offers the possibility of deforming, at least within certain limits, and thus of adapting to the surface of the groove-shaped depression to be able to. The flexibility of the belt also allows a reduction in the required positioning accuracy between the workpiece and the tool.

In addition, the belt has an (abrasive acting) effective portion, which has an active profile, which is adapted to a depression profile of the groove-shaped depression. This means that the active profile and the depression profile are complementary to one another, so that, ideally, the surface of the groove-shaped depression can be machined over the entire width of the depression profile when the active section engages with the groove-shaped depression. But it is also possible that the active profile has smaller dimensions than the recess profile.

In addition, it is provided that the effective portion of the belt is not only in contact with the surface of the groove-shaped depression along a profile line, as is the case with a flat finishing belt. When a flat finishing belt is curved transversely to the belt direction, it can are no longer curved in a direction parallel to the tape direction. When a flat belt is curved in a direction parallel to the belt direction, it can not be curved in a direction transverse to the belt direction. Thus, with a flat band only a line contact to a multi-curved workpiece surface can be realized.

In the workpiece processing system according to the invention, the active section is in contact with the surface of the groove-shaped depression along a contact surface extending along the groove-shaped recess, so that the belt is secured within a wrap angle in FIG Contact with the surface of the groove-shaped depression stands.

The above measures contribute to the fact that a surface contact between the superfinishing tool and the workpiece surface to be machined can be created so that higher cutting performance can be achieved compared to a line contact.

The looping between the belt and the workpiece and the resulting surface contact leads to an improvement in the roundness values and to a reduction in the waviness of the surface of the groove-shaped depression.

Overall, thus high production quality and short processing times can be realized. The workpiece machining system according to the invention is particularly suitable for workpieces in the form of threaded spindles or inner rings of a rolling bearing, or for outer rings of a rolling bearing.

For uniform wear of the knitting portion of the belt and for further improvement of the cutting performance, it is proposed that a belt drive means be provided for driving the belt in a belt running direction. Such a belt drive device may for example be formed by a belt drive wheel, which is driven by a motor.

It is furthermore preferred if a looping angle setting device is provided for setting a looping angle of the belt corresponding to the length of the contact surface about the workpiece axis. This allows easy control of Manufacturing parameters, which influence the roundness and / or waviness of the surface of the groove-shaped depression and manufacturing parameters, which have an influence on the cutting performance to be achieved.

In a further preferred embodiment, a pressing device for adjusting a contact pressure with which the belt presses with its operative portion on the surface of the groove-shaped depression, is provided. This also allows important production parameters to be influenced in a simple manner.

Preferably, a deflection device is provided for deflecting the belt, whereby a simple specification of a guideway of the belt is made possible.

Preferably, a Lageeinstelleinrichtung is provided for adjusting the position of the deflection relative to the workpiece. The position adjustment causes, for example, a change in the position of the deflection or parts of the deflection, whereby a wrap angle adjustment and / or a pressing device can be provided in a simple manner.

In a further preferred embodiment, a rotary drive device is provided for the rotary drive of the workpiece about the workpiece axis. This enables a simple processing of the groove-shaped depression running around the workpiece axis and a tracking of the wrap angle along the groove-shaped depression.

In a further preferred embodiment, a drive device for driving the workpiece or the belt in a direction parallel to the workpiece axis direction intended. Such a drive device is particularly advantageous for workpieces in which a groove-shaped depression extends helically around the workpiece. For example, the workpiece is displaced in a direction parallel to the workpiece axis, matched to a rotational speed of the workpiece, so that the operative portion of the belt is held in continuous engagement with the helically extending groove-shaped recess.

It is further preferred if the belt extends within a belt plane and if a pivoting device is provided for adjusting an angle between the belt plane and the workpiece axis. This angle is for example at least approximately 90 ° in the event that the workpiece is an inner bearing of a roller bearing. When the workpiece is formed by a threaded spindle, the angle around the pitch of the thread deviates from a right angle.

In order to influence the flank geometry of the groove-shaped depression, it is also possible to deliberately deviate from the abovementioned initial values for angles between the belt plane and the workpiece axis, for example in order to achieve a higher contact pressure in a flank region.

A particularly simple handling of the workpiece machining system results when the belt is in the form of an endless belt. This allows an endless circumferential guidance of the belt and in particular a waiver of supply rolls.

In a further preferred embodiment of the invention, it is provided that a surface bounded by the course of the belt within a belt plane is arranged outside the workpiece. This allows easy handling, setup and maintenance of the belt on the one hand and easy positioning of the workpiece on the other hand. But it is also possible to arrange the workpiece within said surface.

It is further preferable that the belt has a supporting portion extending along the belt for supporting the knitting portion. This has the advantage that the working portion can be optimized with regard to its abrasive effect and the support portion in view of a desired flexibility and deformability of the belt. For example, the support section made of a plastic material, for example an elastomer, in particular made of rubber or polyurethane. The active section is made, for example, of CBN (cubic crystalline boron nitride), of aluminum oxide or silicon carbide.

It is possible that the active section completely envelops the support section in the profile. But it is also possible that the active portion does not completely envelop the support portion and that the active portion between the support portion and the surface of the groove-shaped recess is arranged. This makes it possible to use the support portion for guiding, driving and / or deflection of the belt and the provided for guiding, driving and / or deflection of the belt components, such as guide rollers, drive rollers and / or pulleys, not with the To act on abrasive material of the effective section. As a result, premature wear of these components can be prevented.

It is understood that the belt in profile can have different cross sections. For example, the belt is circular in cross section, oval, elliptical, trapezoidal or rectangular. The active section and the support section can also each have one of the abovementioned forms, which can also be combined with each other in pairs.

The invention further relates to a method for microfinishing a workpiece, which has a workpiece outer side, in which at least one groove-shaped recess running around a workpiece axis is introduced.

The present invention has the further object of specifying a method for microfinishing a workpiece, with which a high production quality and a short processing time can be realized.

This object is achieved according to the invention in a method mentioned above, that for fine machining of the surface of the groove-shaped recess a Feinstbearbeitungswerkzeug is used in the form of a belt having a extending along the belt active portion, that the active portion tuned to a depression profile of the groove-shaped recess Having active profile and that the operative portion along a along the groove-shaped recess extending contact surface is brought into contact with the surface of the groove-shaped depression. Embodiments and advantages of the method according to the invention have in part already been explained above in connection with the refinements and advantages of the workpiece machining system according to the invention.

The invention further relates to the use of a workpiece machining system described above for carrying out a method described above.

Further features and advantages of the invention are the subject of the following description and the drawings of preferred embodiments.

Fig. 1

eine perspektivische Ansicht einer Ausführungsform eines Werkstückbearbeitungssystems;

Fig. 2

eine Vorderansicht des Werkstückbearbeitungssystems gemäß Fig. 1;

Fig. 3

eine Draufsicht des Werkstückbearbeitungssystems gemäß Fig. 1; und

Fig. 4 bis 7

Querschnitte verschiedener Ausführungsformen eines Riemens zur Verwendung bei einem Werkstückbeabeitungssystem gemäß Fig. 1.

In the drawings show:

Fig. 1

a perspective view of an embodiment of a workpiece machining system;

Fig. 2

a front view of the workpiece machining system according to Fig. 1 ;

Fig. 3

a plan view of the workpiece machining system according to Fig. 1 ; and

Fig. 4 to 7

Cross sections of various embodiments of a belt for use in a Werkstückbeabeitungssystem according to Fig. 1 ,

A workpiece processing system denoted overall by the reference numeral 10 in the drawing comprises a workpiece 12 and a superfinishing tool in the form of a belt 14.

The workpiece 12 extends along a workpiece axis 16 and has a workpiece outer side 18 extending around the workpiece axis 16. The workpiece outer side 18 is preferably rotationally symmetrical, in particular cylindrical or conical.

In the workpiece outer side 18 a circumferential around the workpiece axis 16, groove-shaped recess 20 is introduced. This recess is made for example by means of a thread whirling process. The groove-shaped recess 20 extends endlessly circumferentially, or, as shown in the embodiment, helically along the outer side 18 of the workpiece 12th

The groove-shaped recess 20 has a surface 22, with a recess profile 24, for example, has a concave curvature.

The machining system 10 preferably comprises a rotary drive device 26, for example a drive motor, for rotationally driving the workpiece 12 about the workpiece axis 16 in a first direction of rotation 28 and / or in a second direction of rotation 30 opposite thereto (cf. FIG. 2 ).

For a displacement of the workpiece 12 in a direction parallel to the workpiece axis 16, a drive device 32, for example in the form of a drive carriage, is preferably provided.

The belt 14 is in the form of an endless belt and can be driven by means of a belt drive device 34. The belt drive device comprises, for example with the belt 14 in frictional contact drive wheel 36, the rotation of which defines a first belt running direction 38 or a second belt running direction 40 opposite thereto.

To improve the frictional contact between the belt 14 and the drive wheel 36, the drive wheel 36 may have a groove-shaped drive section 42.

To specify a course of the belt 14, the workpiece processing system 10 comprises a deflection device 44, which comprises at least one deflection roller 46 for deflecting the belt 14.

Preferably, two deflection rollers 46, 48 are provided which are arranged on opposite sides with respect to a portion 12 of the belt 14 engaged with the workpiece 12.

To improve the hold of the belt 14 on the deflection device 44, the deflection roller 46 or the deflection rollers 46, 48 may have a groove-shaped deflection section 50.

The formed in the form of an endless belt belt 14 limited within a belt plane 52 (see FIG. 3 ) an area 54 (cf. FIG. 2 ). In a preferred embodiment, the drive means 34 and the diverter 44 are disposed within the surface 54 and the workpiece 12 is disposed outboard of the surface 54.

To set a distance between the deflection axes 60 of the deflection rollers 46 and 48, a position adjustment device 56 is provided. In this way, a relative position of the deflecting device 44 to the workpiece 12 can be changed. Further, a pressing device 58 is provided, by means of which a distance between the workpiece axis 16 and the deflection axis 60 of a deflection roller 46, 48 can be adjusted to the workpiece axis 16. As a result, the contact pressure of the belt 14 is adjusted.

The Lageeinstelleinrichtung 56 and the pressing device 58 together form a wrap angle adjustment means by which the size of a wrap angle 62 is adjustable, in which the belt 14 wraps around the workpiece 12 about the workpiece axis 16 around. The wrap angle 62 may be, for example, between about 2 ° and about 90 °, preferably between about 5 ° and about 45 °.

For adjusting an angle 64 between the workpiece axis 16 and the belt plane 52, a pivoting device 66 may be provided which, for example, pivots the workpiece 16 or the belt 14 together with the drive device 34 and the deflection device 44.

The belt 14 has an operative portion 68 which is provided on the outside of the belt 14 and consists of an abrasive material. The active portion 68 is preferably held on a support portion 70 which is made of, for example, an elastomer. The active section 68 has an active profile 72 (cf. FIGS. 4 to 7 ), which is complementary to the recess profile 24 of the groove-shaped recess 20 is formed.

The active portion 68 is within the wrap angle 62 along the groove-shaped recess 20 seen within a contact surface 74 (see FIG. 2 ) in contact with the surface 22 of the groove-shaped recess 20.

For finishing machining of the surface 22, the workpiece is set in rotary motion by means of the rotary drive device 26. At the same time, the workpiece 12 is displaced parallel to the workpiece axis 16 by means of the drive device 32. Meanwhile, the belt 14 is driven in rotation by means of the belt drive means 34, so that the groove-shaped recess 20 is machined finish along its entire circumferential length. During the entire finishing process of the groove-shaped recess 20, the operative portion 68 of the belt 14 is in contact via the (displacing) contact surface 74.

It is also possible to reduce the wrap angle 62 so that a contact between the active portion 68 of the belt 14 and the surface 22 of the groove-shaped recess 20 is reduced to a linear contact. For this purpose, in addition to or instead of the deflection rollers 46 and 48 to use a contact roller, which acts on the belt 14 from its rear side in the region of the linear contact with a contact force.

The workpiece processing system 10 enables highly accurate and rapid finish machining of the surface 22 of the groove-like recess 20.

Claims (15)

A workpiece processing system (10) comprising a workpiece (12) having a workpiece outer side (18) in which at least one groove-shaped recess (20) encircling a workpiece axis (16) is incorporated, and comprising a microfinishing tool for finishing the surface (22) of the groove-shaped recess (20), characterized in that the superfinishing tool in the form of a belt (14) is formed, which has a along the belt (14) extending effective portion (68) that the active portion (68) on a recess profile (24 ), the active portion (68) along a along the groove-shaped recess (20) extending contact surface (74) in contact with the surface (22) of the groove-shaped recess (20) , Workpiece processing system (10) according to claim 1,
characterized by belt drive means (34) for driving the belt (14) in a belt running direction (38, 40). Workpiece machining system (10) according to any one of the preceding claims, characterized by a wrap angle adjustment means for adjusting a corresponding with the length of the contact surface wrapping angle (62) of the belt (14) about the workpiece axis (16). Workpiece machining system (10) according to one of the preceding claims, characterized by a Pressing means (58) for adjusting a contact pressure, with which the belt (14) presses with its active portion (68) on the surface (22) of the groove-shaped recess (20). Workpiece machining system (10) according to one of the preceding claims, characterized by a deflection device (44) for deflecting the belt (14). Workpiece machining system (10) according to claim 5, characterized by a position adjustment device (56) for adjusting the position of the deflection device (44) relative to the workpiece (12). Workpiece machining system (10) according to one of the preceding claims, characterized by a rotary drive device (26) for rotationally driving the workpiece (12) about the workpiece axis (16). Workpiece machining system (10) according to one of the preceding claims, characterized by a drive device (32) for driving the workpiece (12) or the belt (14) in a direction parallel to the workpiece axis (16). Workpiece machining system (10) according to one of the preceding claims, characterized in that the belt (14) extends within a belt plane (52) and that a pivoting device (66) for adjusting an angle (64) between the belt plane (52) and the workpiece axis ( 16) is provided. Workpiece machining system (10) according to one of the preceding claims, characterized in that the belt (14) is designed in the form of an endless belt. Workpiece machining system (10) according to any one of the preceding claims, characterized in that a by the course of the belt (14) within a belt plane (52) limited surface (54) outside the workpiece (12) is arranged. A workpiece processing system (10) according to any one of the preceding claims, characterized in that the belt (14) has a support portion (70) extending along the belt (14) for supporting the operative portion (68). Workpiece processing system (10) according to claim 12,
characterized in that the operative portion (68) is disposed between the support portion (70) and the surface (22) of the groove-shaped recess (20). A method for microfinishing a workpiece (12), which has a workpiece outer side (18), in which at least one around a workpiece axis (16) encircling, groove-shaped recess (20) is introduced, characterized in that for fine machining of the surface (22) of the groove-shaped Recess (20) a superfinishing tool in the form of a belt (14) is used which has an effective portion (68) extending along the belt (14) such that the operative portion (68) engages a recess profile (24) of the groove-shaped recess (20 ) and that the operative portion (68) is brought along a contact surface (74) extending along the groove-shaped recess (20) into contact with the surface (22) of the groove-shaped recess (20). Use of a workpiece processing system (10) according to one of claims 1 to 13 for carrying out the method according to claim 14.

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