DE1136886B - Reaming tool for reworking cylindrical bores - Google Patents

Description

INTERNAT. KL. B 23 d

GERMAN

PATENT OFFICE

P 19772 Ib / 49 c

REGISTRATION DATE: 14th F E B RU AR 1956

NOTICE
THE REGISTRATION
ANDOUTPUTEH
EDITORIAL: SEPTEMBER 20, 1962

Reaming tools are known for reworking cylindrical, in particular long bores, consisting of a holder and a plurality of arranged on the holder, forming a cutting ring, compared to the working diameter in the axial direction with relatively short cutting teeth one curved cutting edge each. The radius of curvature of the cutting edge is only about one Tenth and less of the radius of curvature of the hole to be machined, so that the tool is in the hole to be machined cannot itself lead in the manner of a calibration ball.

In other reaming tools, the cutting teeth arranged on the holder have several in the axial direction adjacent curved cutting edges. In the case of imprecise, something crooked The holder axis cut the individual cutting edges at different depths into the workpiece, independently of which radius of curvature the cutting edges have.

Also known are reamers with in relation to the diameter of the hole to be machined rather long straight cutting knives, which z. B. bent radially outward in the middle of its length or can be bent radially inwards at their ends so that the cutting edges are completely are slightly curved outwards. Here, too, cut if the axis of the is slightly crooked Holder insert the ends of the cutting blades at different depths into the workpiece. The tool can therefore do not lead in the bore to be machined like a calibration ball itself.

The invention relates to a reaming tool for reworking cylindrical, in particular long bores, consisting of a holder and a plurality of arranged on the holder, one Forming cutting ring, compared to the working diameter in the axial direction relatively short Cutting teeth each with a curved cutting edge, and the essential thing is that the The curvature of the cutting edges is chosen so that the envelope surface of all cutting edges is approximately a middle one Forms spherical zone, the diameter of which corresponds to the diameter to be produced. This has the Advantage that the new reaming tool is insensitive to an inaccurately adjusted holder axis, because it guides itself in the bore to be machined like a calibration ball and if there is a weak one Inclination of its holder axis with the end edges of the cutting teeth no scoring on the workpiece surface can generate. The tool is therefore particularly suitable for re-reaming smooth reaming tools for reworking cylindrical bores

Applicant:

Georg Preis, Berlin W 30, Marburger Str. 12

Georg Preis, Berlin, has been named as the inventor

rolled surfaces of workpieces with uneven microstructure, which then after rubbing be rolled smooth again to produce a particularly precise and smooth surface with a more even surface Generate surface hardness.

The cutting teeth can be adjusted to different fits or diameter sizes a joint can be pivoted so that the tool can be used particularly extensively.

The drawing shows an embodiment of a reaming tool according to the invention.

1, 2 and 3 show the reaming tool in longitudinal section and two cross sections aa and bb, the cutting teeth 10 of which can be adjusted to several diameters or fits.

For this purpose, the cutting teeth 10 are circular on the cutting surface and in Longitudinal grooves 26 of a hub 11 mounted, which can be fixed on a drilling or milling shaft. Through pressure rings 12, 13, which are mutually adjustable by screwing or on the hub U, the Cutting teeth 10 pressed with their spherical cap 14 against balls 15, which between the conical Surfaces of a ring 16 and wedge pieces 18 are mounted. The ring 16 and one behind it Ring 21 are firmly connected to the hub 11 by screws 17. To ensure that the Cutting teeth 10 between the pressure rings 12, 13 and the balls 15 are in grooves 27 of the ring 16 the wedge-shaped pressure pieces 18 arranged by screws 19 with simultaneous support can be pressed on the ring 21 against the balls 15, so that any game between the pressure ring 12, 13 and the balls 15 can be eliminated. To the tool in diameter to change, you adjust the pressure rings 12, 13 against each other.

209 657/87

If the diameter is to be larger, the pressure ring 13 is released and the pressure ring 12 is opened the thread28 of the hub against the cutting teeth 10 screwed. The edge 29 of the pressure ring 12 presses against the inclined plane 20 of the Cutting tooth 10 so that it is moved outward. By screwing the pressure ring 13 against the inclined plane 30 of the cutting teeth 10 the setting is secured.

If the diameter is to be smaller, then the movements of the pressure rings 12, 13 on the hub 11 carried out in reverse.

The cutting edges of the cutting teeth are obtained according to the invention such a curvature that the envelope surface of all cutting edges approximately a middle Forms spherical zone, the diameter of which corresponds to the diameter to be produced, so that the Tool like a calibration ball can be guided through a hole and independently of the Accuracy of the working machine produces the fit.

The cutting edge is used to reduce the chip pressure 22 of the cutting teeth 10 directed at an angle to the axis 23 of the tool such that the The chips are peeled off in the direction of feed takes place opposite.

If the tool is moved circumferentially in the direction of arrow 24, then the cutting edge 22, as seen from A , rises to the right, and the feed movement takes place in the direction of arrow 25.

To rework flat surfaces, the tool is placed on a milling shaft and the workpiece set up a router table.

Claims (1)

PATENT CLAIM: Reaming tool for reworking cylindrical, in particular long bores, consisting of a holder and a plurality of cutting teeth arranged on the holder, forming a cutting ring, relatively short compared to the working diameter in the axial direction, each with a curved cutting edge, characterized in that the curvature of the cutting edges is selected is that the envelope surface of all cutting edges approximately forms a central spherical zone, the diameter of which corresponds to the diameter to be produced. Considered publications:
German patent specifications No. 253 601, 361294,
699.822462.906 880;
U.S. Patent Nos. 1837 423, 2,018,674. 1 sheet of drawings © 209 657/87 9.