DE19623081C1 - Circular disc-shaped cutting tool, e.g. circular saw blade, disc milling tool - Google Patents

Abstract

The tool (12) has hard metal cutting plates exchangeably clamped in peripheral incisions in the tool. The edge area of the cutting tool, near to the incisions, recesses (52) are provided with at least one cam surface in which round bracing inserts (54) are inserted, being exchangeable and having at least one corresponding cam surface. The recesses for accommodation of the bracing inserts are open to the edge of the cutting tool and evolve from the swarf space (34) of the corresponding cutting plate (28). The bracing inserts on the side facing the swarf space have a cut-out for continuous insertion in the edge line of the swarf space. From the edge of the incisions bulges evolve in the material of the cutting tool and also from the edge of the recesses.

Description

The invention relates to a circular disk-shaped cutting tool, in particular circular saw blade, side milling cutter or the like, with cuts Interchangeable hard that can be clamped to the circumference of the cutting tool metal cutting inserts, and close to the edge of the cutting tool the cutouts provided with at least one Cam surface, in the exchangeable, at least one corresponding one Essentially round expansion inserts with cam surface are used are.

WO 93/08945 A1 discloses a disk-shaped milling tool, in which carbide inserts distributed around the circumference using eccentrics are stuck. For this purpose, two radially from the outside in cutting lines entering the carrier disk of the tool are strip-shaped Tongues limited, the outer end in the tangential direction against the hard metal cutting inserts. Eccentric spreading inserts press in with area on these tongues. It follows that the end areas of the Tongues that interact with the cutting inserts are resilient are. The resilient tongues thus contribute to the reinforcement of the whole Vibration behavior of the tool. In the interest of a high stand time and high accuracy, however, it is necessary to use cutting tools the present type to train particularly low vibration.

Another cutting tool is known from DE 43 34 852 A1. In the This publication is various facilities for setting Cutting inserts in incisions described on the edge of a carrier disc. The cutting inserts or cutting plates are shown for all th embodiments in the incisions of the carrier disc held and by additional clamping devices, in particular clamping screws with conical shaft or head, clamped free of play.

On the other hand, there are various suggestions for improving stabili act and the vibration behavior of circular saw blades and the like by creating tangential stresses in the leaves. An example for this development is shown in DE 28 35 714 A1.

The invention is based, to determine the means Form cutting inserts or inserts in such a way that they also the Improve cutting tool stability.

This object is achieved with a cutting tool of the above Art solved in that the recesses for receiving the spreading inserts are open to the edge of the cutting tool and the associated chip space go out towards the insert, and that the spreading inserts on the chip side facing a space for continuous insertion in have the edge line of the chip space.

The bracing takes place according to the invention in essentially in the tangential direction, so that the adjacent material of the Cutting tool in the direction of the incision of the adjacent cutting plate is deformed and clamped the insert. At the same time, a generates substantial tangential tension, which is given the usual  Continued to use a number of inserts over the entire circumference sets and improves the running behavior of the circular saw blade significantly.

With a relatively dense sequence of inserts, each one more or less deep inside the circular disc of the cutting tool A retracted chip space precedes the accommodation of the spread cause problems. However, it is according to the invention without further ado possible to arrange them directly in the area of the chip space and ih to give such a contour on the edge that they are essentially insert into the line of the chip room wall. With sufficient ge the recesses and the spreading inserts can be manufactured more precisely Determine the angular position of the spreading inserts in the tensioned state so precisely gene that a coordination with the edge course of the chip space without far res is possible.

The size of the recesses for the spreading inserts can be additional che notches or extensions that deform the Ma facilitate terials.

The spreading inserts preferably have on their outer circumference and Recesses on their inner circumference a corresponding profile tion, which is a mutual definition in the axial direction of the cutting unit Stuff enables, for example, a concave and convex profiling or similar.

Preferred exemplary embodiments of the invention are described below of the accompanying drawings.  

Fig. 1 is a schematic plan view of a cutting tool according to the invention, in which only two cutting plates with associated elements are provided in detail;

Fig. 2 is an enlarged partial view of Fig. 1;

Fig. 3 is an enlarged plan view of a erfindungsge MAESSEN Spreizeinsatz,

Fig. 4 is a perspective view of a spreader set.

In Fig. 1, the circumference of a circular saw blade 12 is indicated by a dash-dotted circle 10 , which is to stand here as an example of circular disk-shaped cutting tools. The circular saw blade 12 has in its center a bore 14 for attachment to a shaft, not shown, and shows around this bore 14 four further bores 16 , 18 , 20 , 22 , for receiving screws, not shown, for fixing the circular saw blade to serve. Around this arrangement from the drilling stanchions 16 , 18 , 20 , 22 around there is an irregular ring of white holes 24 into which spreading inserts (not shown) can be used to generate a tangential tension in the circular saw blade. The possibility of positively influencing the running and the vibration behavior of a circular saw blade was mentioned at the beginning. The holes 24 are each provided on two opposite sides of their edge with unspecified, relatively small bulges, which are directed in some holes in the radial direction, some in the tangential direction. The spreading inserts not shown are used so that their direction of expansion is perpendicular to the connecting line between the two bulges in wesent union. This is to illustrate that the clamping device used in each case can be chosen arbitrarily. As a rule, however, the clamping direction will be essentially tangential.

On the right edge of the circular saw blade 12 , two cutting plates 26 , 28 are shown in FIG. 1.

Fig. 2 shows the cutting plate 28 on a larger scale. The direction of rotation of the circular saw blade 12 is indicated by an arrow, not shown. As can be seen in FIG. 2, the cutting plate 28 has a cutting edge 30 , on the rear side of which a clearance angle 32 is formed. On the in Fig. 1 and 2 downward facing the front of the cutting plates 28 , a chip space 34 is formed, which extends arcuately into the interior of the circular saw blade 12 .

The cutting plate 28 lies in an incision 36 on the edge of the circular saw blade 12 which is in direct contact with the cutting plate 28 along two substantially radial edges 38, 40 and at the bottom 42 of the incision. In the two corners at the transition between the substantially ra dialen edges 38 , 40 and the bottom 42 of the incision are bulges 44 , 46 , which are not required to accommodate the cutting plate 28 , but contribute to tilting of the cutting plate 28 in the incision 36 to avoid due to slight manufacturing inaccuracies and, moreover, the flexibility of the two surface parts on both sides of the incision 36 , which are to be referred to here with clamping jaws 48 , 50 , to increase.

At the base of the chip space 34 , an essentially three-quarter circular recess 52 enters the material of the circular saw blade 12 , in which a rotatable spreading insert 54 is located. Although the recess 52 and the spreading insert 54 in FIG. 1 and also in FIG. 2 appear essentially as circular, they together form a spreading mechanism which, by deforming the material of the circular saw blade 12, allows the clamping jaws 48 and 50 to be clamped in the cutting plate 28 to press together. For this purpose, both the recess 52 and the spreading insert 54 are slightly out of round. The spreading insert preferably has one or more wedge-shaped circular surfaces on its circumference, and the recess 52 has corresponding wedge-shaped surfaces on its inner circumference. The two wedge surfaces should be arranged in such a way that a largely tangential, slightly outward spreading force is exerted on the adjacent material of the circular saw blade, by means of which the clamping jaw 48 is pressed against the cutting plate 28 . In the drawing it can be seen that the spreading insert 54 has a hexagon socket 56 for receiving a tool, not shown, for rotating the spreading insert.

In this case too, at least one bulge 58 extends from the edge of the recess 52 , which, according to FIG. 2, has essentially the shape of a semicircle, but can have a different shape and a much greater depth. This bulge 58 also serves to increase the deformability of the material of the circular saw blade on both sides of the recess 52 .

Since there is hardly any additional space available on the outer edge of the circular saw blade when closely fitted with cutting plates, it is advantageous that, according to the invention, the spreading insert 54 can be arranged directly on the edge of the arched chip space 34 . It is even possible, as can be seen in FIG. 2, to eliminate the spreader insert 54 , which is essentially round in its overall picture, in its overall picture, essentially round expansion insert 54 on the side extending into the chip space 34 through a lenticular cutout 60. This obviously requires a not inconsiderable accuracy the manufacture of the recess 52 and the spreading insert 54 , so that in the tensioned position, the position of the spreading insert 54 shown in FIG. 2 is reached. In terms of production technology, however, this is readily possible.

Fig. 3 shows a Spreizeinsatz 54 more accurately, enlarged representation. On the circumference of this spreading insert 54 , three fine stages 62 , 64 , 66 are provided, each of which forms the end of wedge-shaped circular surfaces (not shown), in the area of which the diameter of the spreading insert continuously increases slightly. Other solutions for generating the spreading effect are possible.

Fig. 4 shows a spreading insert 54 in a perspective view. In this case, the spreading insert 54 , as in FIGS . 1 and 2, is provided with a lens-shaped cutout on the edge facing the viewer. In addition, it is shown in Fig. 4 that the rest of the peripheral edge 68 of the spreading insert 54 is V-shaped. Accordingly, the edge of the recess 52 , in which the spreading insert 54 is inserted, is designed in a cross-section which is V-shaped and projecting in a manner not shown. In this way, the spreading insert 54 is fixed in the axial direction of the cutting tool.

Claims (4)

1. Circular disk-shaped cutting tool, in particular a circular saw blade, disc milling cutter or the like, with exchangeable hard metal cutting plates ( 26 , 28 ) that can be clamped in incisions on the circumference of the cutting tool, and with recesses ( 52 ) provided in the edge region of the cutting tool ( 12 ) near the incisions ( 36 ) ) with at least one cam surface, into which exchangeable, at least one corresponding cam surface with pointing, essentially round spreading inserts ( 54 ) are inserted, since characterized in that the recesses ( 52 ) for receiving the spreading inserts ( 54 ) to the edge of the cutting tool ( 12 ) are open and from the chip space ( 34 ) of the associated insert ( 28 ), and that the spreading inserts ( 54 ) on the chip space ( 34 ) facing side have a cutout ( 60 ) for continuous insertion into the edge line of the Spanrau mes. 2. Cutting tool according to claim 1, characterized in that bulges ( 44 , 46 ) in the material of the cutting tool ( 12 ) extend from the edge of the incisions ( 36 ). 3. Cutting tool according to claim 1 or 2, characterized in that bulges ( 58 ) extend from the edge of the recesses ( 52 ). 4. Cutting tool according to one of the preceding claims, characterized in that the mutually facing edges of the spreading inserts ( 54 ) and the recesses ( 52 ) have a profile for axially fixing the spreading inserts in the cutting tool.