DE2907256C2 - Tool for machining bores through sculptural forming - Google Patents

Description

The present invention relates to a tool for machining bores through plastic Forming according to the preamble of claim 1. Such a tool is disclosed in US Pat. No. 2,230,455 known.

A tool of this type is particularly suitable for machining deep

Holes with high accuracy and with low surface roughness. There is a solidification of the machined surface, and defects are avoided that occur with other types of fine machining can occur, for example cracks during grinding or the like.

In the known training, the working surface of the tool head is a spherical belt, its on the Bohriingsfläche pressure acting surface of the Belongs to spherical surface, d. H. has the same radius of curvature as this one. This comes down to one right large area to a pressing interaction between the bore surface and the working surface of the Tool and correspondingly large frictional forces with only moderate surface pressures. Accordingly, the workpiece deformations that can be achieved by plastic forming are limited. In which known tool, most of the deformation is achieved by chip removal: n: Am A cutting edge is formed at the front edge of the spherical belt working surface. The tool is there also primarily a cutting tool where the

ίο malleable reshaping through the pressing effect of the spherical working surface following the cutting edge represents essentially only a smoothing post-processing.
The invention is based on the object of designing a generic tool for machining bores in such a way that a considerably improved non-cutting deformation is achieved.

Based on the presupposed tool, this object is achieved according to the invention in that the Work surfaces have a smaller radius of curvature than the spherical surface. With such a training the result is bead-like working surfaces which, because of their small radius of curvature, have an almost linear shape Contact with the inner surface of the hole to be hardened have a much higher surface pressure and therefore a higher deformation effect achieve.

The subclaims contain expedient developments specified. If according to claim 2 the working surfaces at an angle to the axial cross-sections of the head, depending on the chosen angle of inclination of the work surfaces, the processing take place over the entire circumference of the bore or only part of it. The tool is Universally applicable, and sharp-edged bores can also be machined.

If the work surfaces according to claim 4 länsjs run in a helical line, this results in a large working length of the same, which reduces their wear and working conditions improved. Also, the introduction into the hole to be machined is more gentle.

If the work surfaces are rigidly connected to the head insert body according to claim 5, so can these consist of the appropriate material, and there is also a calibration of the holes achieved. If, however, bores are to be machined with a relatively large tolerance field, the working surfaces must be in accordance with Claim 6 expediently with the head elastically connected insert body.

It can also be expedient to b;! The head from a set of disks according to claim 7. the on Holders are attached rotatably independently of each other. This results in an optimal rotation speed during operation each of the slices one. which improves the machining conditions and then the reduction the working sliding speeds reduce wear.

To enable the tool to be adjusted by yourself With regard to the bore can according to claim 8, the head on the holder in the radial direction in be / ug on the Retaining shaft or pin axis can be arranged displaceably.

In the following, the invention is illustrated by the description of exemplary embodiments with the aid of the drawings further explained. It shows

F i g. 1 a tool for machining bores in a perspective view,
2 shows a tool with along a helical line

running work surfaces,

F i g. 3 the cross-sectional representation of a head with different designs of the work surfaces,

4 shows a tool in which the head consists of a Set of disks consists, partly in longitudinal section

The tool for machining bores by plastic forming has a head 1 with a bead-like shape Working surfaces 7, which have a printing effect on the bore surface to be machined.

The body 2 of the head 1 has the shape of a body of revolution with a central bore through which the pin 4 of a holder 5 engages by means of the holder 5 is the tool in the spindle, the tailstock quill or clamped in another suitable device of the machine tool.

The head 1 is rotatable about the pin axis OO, which is inclined to the axis LL of the holder 5 at an angle a purpose, it is mounted on bearings 6

The work surfaces 7 lie on a spherical surface, which is indicated by dash-dotted lines in all drawings are in the form of bulbous protrusions on the head surface, being the contact surface of the head with the surface of the bore 8 to be machined and reduce the surface pressures during machining enlarge.

A simple construction of the head results when the work surfaces 7, as shown in FIG. 1 shown is to lie in flat sections of the head. An increase in the effective length of the work surfaces results according to FIG. 2 if they are arranged along helical lines.

It is particularly simple if the working surfaces (7a in FIG. 3) are formed in one piece on the body 2 of the head 1. The choice of material becomes more free if the work surfaces (7b in FIG. 3) are designed as removable insert bodies rigidly connected to the head. It can also be advantageous if the working surfaces (7c in FIG. 3) are rolling elements which are rotatably held in the pockets of the head body 2. With these designs, the bores can be precisely calibrated.

When machining bores with a large tolerance field, the working surfaces (7c / in FIG. 3) insert bodies be resiliently connected to the head 1, e.g. B. by means of a spring 9.

The head 1 of the tool according to F i,?. 4 is from one Set of washers 11 with a rounded circumference These are rotatably attached to the holder 5 independently of each other Machining different speeds of rotation of each of the disks 11. and it only comes to one minimal sliding, which reduces wear.

The head 1 can be floatingly mounted on the holder 5 in that it is arranged displaceably in the radial direction with respect to the axis LL of the Hilters 5 or the axis OO of the pin 4. For this purpose, a gap 12 (Γ i g. 3) is left between the pin 4 and the head body 2. Such a training significantly simplifies setting up the tool.

The tool described has the following mode of action:

The holder 5 is fastened with its shaft or flange on the faceplate, in the spindle, in the tailstock or in the support of the machine tool coaxially to the bore 8 of the workpiece to be machined, which is clamped on the spindle, on the support or on the table of the machine tool is. The drive of the machine tool gives the workpiece and / or the tool a rotary movement about the common axis LL and a longitudinal feed movement.

The tool is inserted into the bore 8 of the workpiece to be machined, on which its head 1 adjusts itself because of the gap 12 of its central bore or thanks to a radial displacement (floating movement) of the head 1 relative to the axis LL of the holder 5 Workpiece and head 1, the latter rotates around the pin 4, the axis OO of which is at an acute angle λ to the axis LL of the holder 5 bringing the workpiece into contact, wherein the total of participating in the forming surface of the head is bounded λ by a central angle of 2 This not only reduces the wear of the working faces, but also meshes due to the continuous change of the working sections to a significant decrease in temperature in the treatment zone because of the r. ·. > Brief deformation attack of the individual ÄbschmRe on the hole 8 to be machined in the workpiece and subsequent longer cooling. All of this ensures the increase in work performance, machining accuracy and - good.

Because of the small radius of curvature of the working surfaces, high surface pressures occur when the deformation attack occurs, what the force required for machining and thus also the required machine output can be reduced significantly. In addition, the gaps between the work surfaces allow free flow of the material of the workpiece during forming. This improves the conditions of the plastic working and thus also works to improve machining quality and accuracy

1 sheet of drawings

Claims (8)

Patent claims: 1. Tool for machining bores by shaping with a head that is on the Pin of a holder is rotatably arranged about an axis which is inclined to the axis of the holder with at least a part of its surface acts on the bore surface in a pressing manner, this part forms the working surfaces and lies on a spherical surface, characterized in that the Working surfaces (7) have a smaller radius of curvature than the spherical surface. 2. Tool according to claim 1, characterized in that the work surfaces (7) under a At an angle to the axial cross-sections of the head. 3. Tool according to claim 1, characterized in that the working surfaces (7) in planar cross-sections of the head (1). 4. Tool according to claim Z, characterized in that the working surfaces (7) along a Helical line. 5. Tool according to claim 1, characterized in that the working surfaces (76,! As an insert body are formed and rigidly connected to the head (1). 6. Tool according to claim 1, characterized in that the working surfaces (Jd) are designed as insert bodies and are elastically connected to the head (1). 7. Tool according to claim 1, characterized in that the head (IJ from a set of discs (11) is formed, which are rotatably arranged independently of one another on the holder (5) see id. 8. Tool according to claim 1, characterized in that the head (1) on the holder (5) is displaceable in the radial direction with respect to the axis (LL) of the holder (5) or the axis (OO) of the pin (4) is arranged.