DE2713529A1 - Lathe or boring machine boring tool - has elliptical section shank with cutting edge on line joining curve centres - Google Patents

Abstract

The cutting tool particularly for boring on lathes and borers, has a straight shank with a cutting edge inclined to it, for use when turning out or undercutting. The cross-section of the shank (1) is elliptical, formed by two equal-radius portions (5, 6). Cutting edges (2) are formed at the level of the line joining the centres (7, 8) of these portions. The value of the radii can correspond to the necessary height of the shank, formed by the distance between the two points of intersection (3, 4) of the surfaces. The shank can be of elliptical coaxial cross-section for its entire length, or at the mounting end, it can be coaxial with a mounting shank of cylindrical or square cross-section.

Description

Cutting tool, in particular turning chisel for turning, drilling or

similar machines.

The invention relates to a cutting tool, in particular a boring chisel with a straight shank and a cutting edge, in particular arranged inclined thereto for turning and / or undercutting workpieces to be machined accordingly, for use on turning, drilling or similar machines.

In such cutting tools, a spatial design and Training in particular of the shaft in the area of the cutting edge is required in a workpiece to be machined, especially in the directions of the work paths, perpendicular to the tool axis, allowing great freedom of movement of the tool and there in particular when the cutting edge of the tool engages with the machining surface a sufficient distance between the cutting surface and the neighboring one on the workpiece Shaft side is present. In particular, the dynamic resilience of the shaft must be ensured there for the requirements for such tools. aside from that it is necessary with such tools, the cutting edges the requirements train them accordingly and, if necessary, provide them with cutting inserts can.

It is known to meet these requirements, so-called cutting tool blanks with a ~ square or a rectangular or a round cross-section of the Shank for use on a workpiece to be machined accordingly to prepare by grinding. It is often necessary, in particular to remove relatively large amounts of material in the area of the shaft, about sufficiently large rooms for sufficient freedom of movement, not just that Cutting tool as such with its shaft to a back and / or to be turned Arrangement of such a workpiece to be machined, but also the Cutting edges of the tool in particular to the shank face (s), which directly offset the machining surfaces of the workpiece or offset it by 1800, are indirectly adjacent by the tool return stroke.

Often there is a spatial adaptation, training and machining of the shaft the original shaft cross-section beyond the permissible Measure also statically and dynamically weakened to such an extent that the load-bearing capacity of the tool not only sinks and an intended optimal cutting performance does not can be achieved, but that a tool to be machined by such tool instability The quality of the workpiece surface is impaired. Also are so individual Cutting tools that are trained on a workpiece are unusable for many other applications, i.e. the wear is relatively high and such tools are often uneconomical.

The invention is based on the task of a cutting tool to create the type mentioned at the beginning in which these disadvantages are eliminated, and equipped with a shank and a cutting edge provided for this purpose is, in which the direction of the tool on a certain workpiece is the shaft no longer or only in the immediate area of the cutting edge together with this must be processed.

This object is achieved according to the invention in that the cross section of the shank of the cutting tool spatially similar to an ellipse, made of two, in particular equal radii, can be formed, and that cutting edges on at least one, of the radially extending, coaxially arranged sides, in particular spatially at the level of a line connecting the two centers of the radii are arranged.

The spatial height of the shank of the cutting tool according to the invention is determined in particular by the distance between the points of intersection of the two Radii formed with each other. The spatial dimensions of the radii of the two, one sufficient Elliptical cross-section with each other forming, circumferential surfaces can, the respective According to requirements, it can be of any size.

This is advantageous in an embodiment of a shank for a cutting tool according to the invention, not only the statically and dynamically advantageous one is sufficient elliptically profiled cross section of the shaft of such a tool in particular Over the entire, coaxial tool length, the front with one to the narrow side of the shank sufficiently inclined, cutting edge can be provided, but also the, thereby achievable sufficient freedom of movement with regard to the required work routes of the tool, which is used when machining, for example, spatially relatively deep bores, which are insignificantly larger in the inner diameter than the spatial distance between the two Intersection points or edges of the radii of the shaft with each other, i.e. the shaft height, especially if the size of the respective radius of the shaft corresponds to the relative raw diameter corresponds to a hole to be machined. Is also advantageous by the advantageous cross-section minimal, straightening effort of such a cutting tool, which is essentially limited to the machining of the cutting edges. The invention thus enables a simple, clear production and direction a cutting tool, the blanks of which are created in different sizes can, and which simply, rationally and economically the individual requirements a workpiece to be machined can be adapted, without thereby a specific Creating cutting tool.

Embodiments of the invention are shown in the drawing and are explained in more detail below. 1 shows a perspective view of a cutting tool, in particular a boring chisel, with a shank of the invention, FIG. 2 is a front view of a workpiece to be turned out one Cross section through a shank of a cutting tool according to Fig. 1, Fig. 3 a schematic view of a cutting tool blank with an axially displaceable Clamping sleeve for clamping in conventional tool holders and FIG. 4 shows a schematic View of a cutting tool blank with a shank according to the invention and a, Cylindrical shaft end provided in one piece on the rear side.

The cutting tools shown in the figures consist in their essential structure of a shank 1 and a cutting edge 2. According to the invention the shaft 1 has a cross-section that is sufficiently similar to an ellipse, which consists in particular of two intersecting points or edges 3 and 4, Radii 5 and 6 can be formed. The size of the radii 5 and 6 can be as desired be designed according to the most common requirements. This also applies to the spatial one Distance between the two centers 7 and 8 of the radii 5 and 6 to one another and to the axis 9 of the shaft 1. It can be provided that the two coaxially extending Cutting edges 10 and 11 of the radial, mutually opposite, lateral surfaces of the shaft 1 relatively sharp-edged or slightly flattened or rounded are.

In the used position, runs the two intersection points or edges 3 and 4 connecting line 12 perpendicular to which the cutting edge 2 is sufficient can be arranged vertically.

The cutting edge 2 can on a shaft 1 with a cross section according to of the invention be designed as a blank and have any desired initial shape, which can then be sanded according to the requirements. The spatial The position of the cutting edge 2 should in particular be at half the height of the total height the distance between the two intersection points 3 and 4, i.e. on the axis 9. The cut edge 2 can be connected in one piece to the shaft 1. However, it is also provided that that the shaft 1 with a so-called bearing for the form-fitting and / or force-fitting detachable arrangement of so-called indexable inserts is formed.

The advantages of a shaft with a cross section according to the invention are evident in the application, such as in particular FIG. 2 using an example made clear. There an axially relatively deep hole 13 is to be turned out in a workpiece 14 or to drill. when using conventional cutting chisels, the shaft would be in the The area of the commute to work should be relatively heavily removed in order to leave sufficient room for maneuver for the necessary work routes and the drainage of the machined material. The time required for such processing and the multiple setup tests are extremely uneconomical. There is also often the static and the dynamic Strength of the shaft affected, especially in the area of the cutting edges drawn, so that in many cases the quality of the surface to be machined on a workpiece the machining forces acting back on the tool do not meet the requirements is equivalent to. In addition, such cutting bits are often so specific geared towards a tool that it can only be machined for relatively few others Workpieces can be used.

On the other hand, it is different with a lathe tool with a shaft cross-section the invention. There, the height of the shaft 1, which is formed from the distance of the two intersection points or edges 3 and 4, be only slightly smaller than the rough dimension of the diameter of the hole 13.

Machining of the shank is not necessary for such a cutting chisel 1 completely, so that the tool armor is almost exclusively used for machining the cutting edges 2 limited. Also is the static and dynamic strength such a shaft is excellent, especially since the aspect ratio of the present Shank 1 corresponds to the distribution of the cutting load components relatively optimally.

The time required for the armament is with such a tool extremely small. The working leeway in the area of the work routes and the drainage of the machined material is sufficiently oversized.

In particular, for tools with a shank 1 according to the invention, As shown in FIG. 3, a so-called clamping sleeve 15 can be provided which is concentric running coaxially with a hole cross-section corresponding to the cross-section of the shaft 1 16 is provided for clamping such a tool on known tool holders on corresponding processing machines.

Since the cross section of the shaft 1 there over the entire length up to is the same in the area of the cutting edge 2, the tool in the sleeve 15 axially displaced and clamped as desired.

However, it is also provided according to FIG. 4, a Wetkzeug with a Shank 1 according to the invention in particular in one piece and cohesively with a so-called clamping shank 17, which can have any cross-section, to provide. The figure shows there in particular a cylindrical clamping shank 17 on the shaft 1 of the tool. The cross-section according to the invention can be used as standard of the shaft 1 must be ground out of a cylindrical clamping shaft 17. However, it is also possible to use tools such as those in the various figures have been shown and described to be sintered in series production.

It is within the scope of the invention that the shaft 1 of the present Tool also other cross-sectional shapes with a corresponding spatial relationship of height and width are possible, which in the broadest sense approximated an ellipse are. For example, such a shaft in cross section can be made up of a number be formed by mutually angled, coaxially extending surfaces, whose Envelope in the broadest sense can correspond to an ellipse. Such tools can come in different sizes with one, in particular the same ratio of height to be made wide.

L e r s e i t e

Claims (6)

Claims @ cutting tool, in particular boring chisel with a straight shank and a cutting edge, in particular arranged inclined thereto for turning and / or undercutting workpieces to be machined accordingly, for use on turning, drilling or similar machines, characterized that the cross-section of the shaft (1) of the cutting tool spatially an ellipse similar, can be formed from two, in particular equally large radii (5 and 6), and that cutting edges (2) on at least one of the radially extending, coaxial sides arranged to one another spatially in particular at the level of one, the two Centers (7 and 8) of the radii (5 and 6) interconnecting, arranged line could be, 2. Cutting tool according to claim 1, characterized in that the The size of the radii (5 and 6) corresponds to the required height of the shaft (1), from the spatial distance between the two intersection points (3 and 4) of the radii (5 and 6) is formed with each other. 3. Cutting tool according to claim 1 and 2, characterized in that that the shaft (1) coaxially over its entire length has an ellipse-like cross-section having. 4. Cutting tool according to claim 1 and 2, characterized in that that the shaft (1) on the clamping side is integral with a clamping shaft (17) is provided with a circular cylindrical or a square cross section. 5. Cutting tool according to claim 1 to 4, characterized in that that the shaft (1) with a blank-like cutting edge (2) made of a sintered material is made. 6. Cutting tool according to claim 1 to 5, characterized in that that the cut edges (10 and 11) of the shaft (1) are provided with a radius.