DE102006017458B4 - Cutting plate and carrier tool for inserts - Google Patents

Abstract

Cutting mat with more than two cutting edges (3) and with a through hole (7), wherein the cutting edges (3) are arranged centrally symmetrical to the through hole (7), characterized in that laterally on the cutting mat (1) more than two projections (9 are formed, and that the more than two projections (9) are arranged centrally symmetrical to the through hole (7) that the number (n) of the cutting edges (3) equal to the number (m) of the projections (9) of the cutting mat (1 ), and that each projection (9) has at least one abutment surface (13), and that the at least one abutment surface (13) extends parallel to the longitudinal axis of the through bore (7).

Description

State of the art

Inserts for example, with a central throughbore and multiple cutting edges to the longitudinal or turning around known. When longitudinal and turning the indexable insert by the Zerspankräfte in the insert seat in the carrier tool pressed.

If For piercing or threading a turning tool, consisting from a carrier tool and a cutting mat with multiple cutting edges should, runs the longitudinal axis the fastening screw with the help of the cutting mat on the carrier tool is clamped, parallel to the longitudinal axis of the machine tool spindle. As a result, cause the Zerspankräfte during piercing a torque, which from the cutting mat to the carrier tool safely transmitted must become. At the same time, the positioning of the cutting mat needs relative to the carrier tool very accurate and repeatable.

From the DE 100 42 779 A1 is a carrier tool known in the multiple slats can be used side by side, so that multiple grooves can be made simultaneously with a feed movement. The desired distance between the grooves is set by spacers between the snow blades.

From the US 2003/0156910 A1 and the WO 92 / 2,154 A1 are a carrier tool and a cutting mat with several cutting known.

this turning tools is common that when cutting between cutting mat and vehicle tool acting moments from an area located between the vagina on the periphery of the cutting mat on correspondingly shaped contact surfaces of the Carrier tool are transmitted.

From the DE 36 17 119 A1 is a turning tool, comprising a carrier tool and a cutting blade with a plurality of cutting edges, known in which formed on the side of the cutting mat a projection. An end face of this projection has a plurality of groups of parallel grooves.

In the associated carrier tool is a group of parallel grooves formed with a group parallel grooves of the cutting mat makes a positive connection. This form-fitting Connection takes over both the positioning of the cutting mat relative to the carrier tool as well as the transmission while the cutting forces acting on the cutting mat on forces the carrier tool.

adversely at this solution is the high production cost for the production of grooves, which also take place with high precision got to.

Of the Invention is based on the object, a turning tool consisting from a cutting mat and a carrier tool to provide which is especially suitable for piercing and threading and which the o. g. Requirements met safely and reliably. Furthermore should the cutting mat according to the invention produced by sintering preferably require little rework after sintering. The reworking takes place almost exclusively by grinding and is very time and cost intensive because the sintered Cutting mat is very hard and therefore difficult to machine. The less be ground to the sintered blank of the grinding plate must, the cheaper can the cutting mat according to the invention getting produced.

These Task is with a cutting mat with more than two cutting edges and with a through hole, the blades being centrally symmetric are arranged to the mounting hole, solved according to the claim.

Advantages of the invention

The projections according to the invention have at least one side each on which as investment surfaces in a carrier tool serve. The fact that all contact surfaces in the immediate spatial Close to each other are arranged, it is possible these plant surfaces produce with the required accuracy by sintering. One Regrinding the sintered blanks in the area of the contact surfaces or in the area of the projections not necessary. This is a significant increase productivity achieved without the quality of the final product and the accuracy of the cutting mat according to the invention suffers.

Thereby, that the number of cutting edges and the number of protrusions of the Cutting mat is the same, it is possible in the easiest way, one worn first cutting edge by turning the cutting mat through to replace a new cutting edge.

simultaneously is ensured by the projections according to the invention, that the peak height of the turning tool after changing the cutting edge is exactly the same.

The advantages of the invention can be realized particularly well if each projection has an end face, wherein the end faces of the Projections are orthogonal to a longitudinal axis of the through hole and the end faces of the projections lie in a plane.

there can the faces the projections as flat surfaces be formed, which merge into each other.

Thereby arises, although the end faces of the individual projections can be made relatively small, a big enough one Bearing surface of Cutting mat, so that too big and biggest cutting forces of the cutting mat on the carrier tool safely transmitted can be.

These Property of the cutting mat according to the invention is further increased by the fact that the end faces in each case by a parting line are separated from each other. This reduces the risk that, for example through chips or other contaminants on the end faces of the projections of the cutting mat relative to the carrier tool canted. Furthermore elevated itself, with the same tightening torque of the fastening screw, the surface pressure between the faces the projections and the corresponding counter surface in the vehicle tool. The same effect can be achieved when the faces of the projections curved concave or convex are formed.

Finally, points this design of the faces also advantages in sintering, because the flatness of several small support surfaces can be achieved better than a continuous support surface.

Around to guarantee, even under the most severe machining conditions, that the peak height of the Engaging cutting edge of a cutting mat does not change and also when replacing the cutting edges of a cutting mat the center height of the rotary tool according to the invention always remains the same, the projections have at least one, preferably however, two contact surfaces, on, parallel to the longitudinal axis the through hole runs. Thereby Is it possible, with one or two suitably shaped mating surfaces in the carrier tool a non-rotatable connection of the cutting mat with the carrier tool manufacture.

simultaneously This also makes the top height the cutting of the cutting mat constructively fixed so that Replacing a cutting mat does not change the peak height.

One particularly successful compromise between the one hand as possible huge Number of cutting and on the other hand a compact design of Turning tool at the same time with large penetration depth provides the Number of four cutting edges and four protrusions per cutting mat.

The secure fixation of the cutting mat according to the invention on a associated carrier tool will continue to increase, when the through hole is formed as a stepped bore. It can the through-hole one or more cylindrical sections and / or have one or more frusto-conical sections. This makes it possible, for example, the screw head in to sink the through hole so that he does not have the Cutting mat protrudes. At the same time can by a countersunk head the through-bolt, which with a correspondingly shaped frustoconical Section of the through hole cooperates, a very precise Positioning of the cutting mat relative to the carrier tool can be achieved.

The Cutting mat according to the invention is particularly suitable for parting or grooving as well as for thread turning. Furthermore, the cutting edge according to the invention can also be used for grooving Grooves, for example Circlips are used. In practice, latitudes have from 0.5 mm to 3.15 mm at the cutting edges of the cutting mat as advantageous proved.

The The object mentioned above is likewise achieved by a carrier tool for one Cutting mat with more than two cutting edges and with a shank, taking the shaft has at least one side surface, achieved in that on the side surface the shaft provided a recess for receiving a cutting mat is, wherein in the recess a mounting hole for receiving a fastening screw is provided. Next points the depression a base area on, with this footprint orthogonal to a longitudinal axis the mounting hole runs.

These Floor space, works with the faces the projections the cutting mat together and aligns the cutting mat very carefully in a plane orthogonal to the longitudinal axis of the mounting hole runs, out.

Around the transfer of torques when cutting between the cutting mat and the carrier tool arise, optimize, is the footprint in the vehicle tool of at least a side surface, preferably from two side surfaces limited, wherein at least one side surface parallel to the longitudinal axis the mounting hole runs. These side surfaces form the base together with the contact surfaces the projections the cutting mat a non-rotatable connection, even under the heaviest Loading a twisting of the cutting mat relative to the carrier tool prevented.

simultaneously ensures this form-fitting Connection between cutting mat and carrier tool for a precise Positioning the cutting mat or its cutting edges relative to the carrier tool. This ensures, among other things, that the peak height of the cutting mat always remains the same, even if another cutting mat in the carrier tool is used.

The Cutting mat according to the invention Can also be used together with a carrier tool for a router with a replaceable cutting mat are used. In this Case becomes the carrier tool into the collet of a milling spindle clamped and on the face a carrier tool Well provided for receiving a cutting mat according to the invention is trained. It is necessary that in the depression a mounting hole for receiving a fastening screw is that the recess has a base, and that the Floor space orthogonal to a longitudinal axis the mounting hole runs.

Of Further, it is advantageous if the base of two parallel to each other running side surfaces is limited and these side surfaces parallel to the longitudinal axis the mounting hole runs. In such a designed carrier tool for one milling cutter can the cutting battens according to the invention with your projections form-fitting between the side surfaces introduced be and against the bases be tightened with the help of the fixing screw. This is it is possible for example, in very narrow holes with the milling tool according to the invention, consisting of a cutting mat and said support for a cutters, To incorporate grooves by so-called tangential milling.

Further Advantages and advantageous embodiments of the invention are the subsequent drawing, the description and the claims can be removed. All features disclosed in the drawings, the description and the claims can be essential to the invention both individually and in any combination.

drawings

It demonstrate:

1 an embodiment of a cutting mat according to the invention in the views;

2 an embodiment of a carrier tool according to the invention in different views;

3 Carrier tool with mounted cutting mat in different views;

4 a double-sided carrier tool with two built-cutting inserts;

5 and 6 Carrier tools for a rotary cutter and

7 to 13 Embodiments of a handling system according to the invention for cutting battens.

Description of the embodiments

In the 1a is a cutting mat according to the invention 1 with four cutting edges 3 shown in an isometry. In isometry of 1a is a top 5 the cutting mat 1 visible, noticeable. In the middle of the cutting mat 1 is a stepped through-hole 7 available. The through hole 7 serves to receive a fastening screw (not shown) with the help of the cutting mat 1 is attached to a carrier tool, not shown.

In the 1b is the cutting plate 1 shown in a view from below. According to the number of cutting edges 3 are at the bottom of the cutting mat 1 four projections 9 educated. The faces of the projections 9 are in 1b shown black and have no reference number there. Otherwise, the end faces have the reference number 15 (see eg 1c ). Between the faces 15 the projections 9 are depressions 11 educated. This means that the cutting mat 1 if it is pulled with a fastening screw (not shown) against a carrier tool, also not shown, only in the region of the end faces 15 the projections 9 is pulled against the carrier tool.

In the bottom view ( 1b ) is good to see that each of the projections 9 two contact surfaces 13 having an angle of about 90 degrees with each other. For clarity, are not on all protrusions 9 the contact surfaces 13 provided with reference numerals. The contact surfaces 13 serve, together with corresponding mating surfaces on a support tool, not shown, a non-rotatable positive connection between the cutting mat 1 and carrier tool. At the same time the peak height of the cutting is made by this positive connection 3 established. The projections 9 or their contact surfaces 13 in a way have the function of a dog clutch.

In the 1c is a section through the cutting mat 1 shown. In this illustration are the contact surfaces 13 the projections 9 as well as the front surfaces 15 the projections 9 clearly visible. In this representation, it can be further seen that the contact surfaces 13 the projections 9 parallel to a longitudinal axis of the throughbore 7 run and the faces 15 lie in one plane.

In 2 is one to the cutting mat 1 belonging carrier tool 17 also shown in three different views. The 2a shows a side view of the carrier tool 17 , In a side area 21 of the shaft 19 is a depression 23 spared. In the middle of the depression 23 is a mounting hole 25 provided, which has an internal thread. In the mounting hole 25 a fastening screw, not shown, screwed, the head in the through hole 7 the cutting mat 1 (please refer 1 ) is recorded.

The depression 23 has a total of three mutually perpendicular side surfaces 27 on. The side surfaces 27 form together with the contact surfaces 13 the projections 9 the cutting mat 1 (please refer 1 ) an anti-rotation device for the cutting mat 1 , At the same time the cutting mat becomes 1 (not shown in 2 ) through the side surfaces 27 the depression 23 positioned.

The mounting hole 25 runs at the in 2 illustrated embodiment not exactly perpendicular to the side surface 21 of the shaft. It is rather twisted about two axes by about 2.5 degrees each. In the 2a is a coordinate system with three axes indicated. The coordinate system is placed so that the X-axis parallel to a longitudinal axis of the carrier tool, not shown 17 runs. In the 2 B and 2c the visible axes are also entered.

The 2 B shows a plan view of the shaft 19 , The visible in this plan view top 29 of the shaft 19 runs in the plane spanned by the X-axis and the Y-axis. In this plan view it becomes clear that a longitudinal axis 31 the mounting hole 25 is pivoted about 2.5 degrees relative to the X-axis.

The 2c shows a view from the right of the carrier tool 17 , In this view it becomes clear that the longitudinal axis 31 the mounting hole 25 is also twisted by about 2.5 degrees relative to the Y-axis.

The depression 23 is orthogonal to the longitudinal axis 31 the mounting hole 25 arranged so that also has a footprint 33 the depression 23 as well as their side surfaces 27 are twisted or pivoted in the manner described above.

So the cutting mat 1 when installed is best protected against external damage, is at the top 29 of the carrier tool 17 a hump 35 educated. This hump 35 protects, as based on the 3 becomes clear, a cutting edge of the cutting mat against damage. The same purpose serves a recess 37 in the side area 21 of the carrier tool 17 ,

In 2d is the detail X out 2 B shown greatly enlarged. From this representation it becomes clear that at the transition between the side surface 27 and the base area 33 the depression 23 an underdog 34 is provided. By the undercut 34 will ensure that the projections 9 the cutting mat 1 only on the side surfaces 27 and the base area 33 the depression 23 abut and through these surfaces 27 and 33 is precisely positioned.

In 3 is the carrier tool 17 according to 2 with built-in cutting mat 1 according to 1 shown. In the side view according to 3a is best seen as the contact surfaces 13 the projections 9 along with the side surfaces 27 the depression 23 a positive connection between the cutting mat 1 and the carrier tool 17 produce. For clarity, not all are the cutting mat 1 and the carrier tool 17 in the 3a . 3b and 3c provided with reference numerals.

Because the cutting mat 1 or their projections 9 positively in the depression 23 received the carrier tool, the engaged cutting edge can 3.1 also under the action of the chip forces F, which are essentially in the direction of an arrow 39 on the cutting edge 3.1 act, not relative to the carrier tool 17 twist. The above-mentioned positive connection between cutting mat 1 and vehicle tool 17 also causes the tip height of the engaged blade 3.1 always constant. If namely the cutting edge 3.1 worn or about demolished altogether, becomes the cutting mat 1 from the carrier tool 17 taken out, rotated 90 degrees and back into the carrier tool 17 used and clamped by means of the fastening screw (without reference numeral).

Therefore, even after replacing a cutting edge is always ensured that the peak height of the turning tool, consisting of the carrier tool 17 and the cutting mat 1 , remains unchanged. This also applies in the case of a cutting tear off for all remaining cutting edges, since the cutting mat according to the invention 1 over the projections 9 to a carrier tool 17 or 41 tense and fixed.

In all three views of the 3 is good to him know that the recess 37 in the vehicle tool 17 only serves two of the three not engaged cutting 3 to protect against damage. In the area of the recess 37 has the cutting mat 1 no direct contact with the carrier tool 17 , The contact between the cutting mat 1 and carrier tool is limited to the projections 9 with their contact surfaces 13 and the faces 15 on one side and the depression 23 with their base area 33 and their side surfaces 27 on the other hand.

The cutting mat according to the invention 1 it is not necessary the end faces 15 and the contact surfaces 13 the projections 9 after sintering the cutting mat 1 rework. This is due to the favorable design of the projections 9 and the fact that the protrusions 9 are arranged relatively close to each other and therefore experience the same pressures and temperatures during sintering, so that the various projections 9 a cutting mat with each other have almost no deviations. The remaining minimum deviations are so small that they are responsible for the required positioning accuracy of the cutting mat 1 relative to the carrier tool 17 are meaningless.

In 4 is another embodiment of the proper carrier tool 17 with inserted cutting battens 1 shown. In this carrier tool 17 can be on both sides 27 one cutting mat each 1 be used. It goes without saying that these cutting slats 1 usually not used at the same time, but if necessary, either a right or a left cutting mat 1 is used. This makes it possible with a carrier tool 17 and two variants of the cutting battens 1 to provide a right and a left turning tool.

In the embodiment according to 5 the carrier tool has a central mounting hole 25 on. In a face 43 is a depression 23 with a base area 33 and two side surfaces 27 spared. The distance of the side surfaces 27 each other corresponds to the edge length of the four projections 9 the cutting mat 1 formed square (see 1b ). As a result, it is possible to use the cutting mat with its protrusions 9 in the depression 23 on the front side of the carrier tool 41 insert positively and with a fastening screw (not shown) against the base 33 the depression 23 to stretch. If you have the carrier tool 41 Clamping in a milling spindle, for example, grooves can be milled by tangential milling in holes of workpieces with this tool.

6 shows a plan view of a second embodiment of a Rotierfräsers invention. The shaft 41 has a slightly smaller diameter than a cutter body 43 of the rotary milling cutter. At the end face of the cutter body 43 are three cutting slats 1 arranged offset by 120 ° to each other. The wells 23 in the milling body 43 are in this view through the cutting battens 1 covered. For ease of understanding, the projections 9 the cutting mat 1 However, although shown in 6 on the tops 5 the cutting mat 1 looks.

At the in 6 illustrated embodiment, the rake angle of the cutting 3 negative. By turning the wells 23 (not visible) in the milling body 45 the rake angle of the rotary cutter can be determined constructively. Through a dashed line 47 is a minimum diameter of a hole indicated in the carrier tool can be retracted, for example, to mill a groove for a snap ring.

In the 7a is a cutting mat according to the invention 1 shown in a view from below. This view is essentially the same as the view 1b so that in order to avoid repetition, only the differences between these embodiments will be explained below.

In the faces 15 the projections 9 is in each case a dome-shaped depression 43 incorporated. These dome-shaped depressions 43 are positioned so that they are in a circular guideway 45 lie. The distance between the dome-shaped depressions 43 and the circular guideway 45 from the center of the through hole 7 is in 7 denoted by A. The dome-shaped depressions 43 serve, the cutting mat 1 relative to the carrier tool 17 to fix before the protrusions 9 and the depression 23 formed positive connection between cutting mat 21 and vehicle tool 17 takes effect.

In 8th is an embodiment of a carrier tool according to the invention 17 pictured, which with the cutting mat 1 according to 7 interacts. In the base area 33 the depression 23 are two spring-loaded push pins 49 attached.

The distance A of the resilient pressure pin 49 to the longitudinal axis 31 the mounting hole 25 is equal to the distance A between the center of the through hole 7 and the dome-shaped depressions 43 in the cutting mat 1 according to 7 , This means that the pressure bolts 49 in the dome-shaped depressions 43 the cutting mat 1 engage as soon as two of the dome-shaped depressions 43 over the pressure pin 49 are located. Once the resilient pressure pin in the dome-shaped depressions 43 the tail Delatte 1 are engaged, is the cutting mat 1 secured against unauthorized twisting and can by tightening the mounting screw (not shown) in the recess 23 in the vehicle tool 17 be involved.

In 9 is the carrier tool 17 according to 8th with built-in cutting mat 1 shown.

In 10 is a front view of the carrier tool 17 shown enlarged. Here is the cutting mat 1 not yet firmly with the carrier tool 17 screwed.

Out 10 it becomes clear that the projections 9 the cutting mat 1 not yet in the depression 23 of the carrier tool 17 are located. A distance between the protrusions 9 and the depression 23 is in 11 denoted by "s".

The spring bolt 49 sticking out in the 10 illustrated rebounded state so far over the base 33 the depression 23 addition, that he is in the dome-shaped depression 43 the cutting mat 1 engages and secures against unintentional twisting. In this position, the contact surfaces run 13 the projections 9 parallel to the side surfaces 27 the recess 23 , This means that the cutting mat 1 by further tightening or further screwing the fastening screw, not shown, against the spring force of the resilient pressure bolt 49 into the depression 23 can indent without the protrusions 9 the carrier tool outside the recess 23 on the carrier tool 17 to meet.

In 11 the situation is illustrated where the cutting mat 1 firmly with the carrier tool 17 is connected and the end faces 15 the projections 9 on the ground 33 rest of the carrier tool. In this position, the positive connection between the projections 9 and the depression 23 of the carrier tool 17 given.

The resilient pressure pin 49 is how out 10 seen in a threaded hole 53 of the carrier tool 17 screwed. To ensure that the resilient pressure pin 49 throughout the lifetime of the carrier tool 17 does not solve or changed its position, it is recommended that the pressure pin 49 by means of a thread lock, such as an adhesive, in the threaded hole 53 to secure. Of course, also pressure bolts can be used, which are pressed into a bore (not shown) and by a press fit in the carrier tool 17 be attached.

The resilient pressure bolts 49 have two tasks. The first task is to tighten the mat before putting it on 1 fix them in their position relative to the carrier tool so that the projections 9 the cutting mat 1 undisturbed in the depression 23 of the carrier tool 17 can retract. It also prevents one of the cutting edges 3 the cutting mat outside the recess 37 on the carrier tool 17 meets and thereby the cutting mat 1 tilted or even the cutting edge 3 aborts.

The second task of the resilient pressure pin 49 is when changing the cutting edge 3 the projections 9 the cutting mat 1 from the depression 23 push out when the fastening screw (not shown) is released.

These tasks can also be done with the help of a 12 and 13 explained simplified embodiment can be realized.

In this embodiment is in the mounting hole 25 the carrier tool and / or in the through hole of the scarf mat 1 a cylindrical heel 51 provided, which for receiving a compression spring 55 serves.

Now if the mounting screw 57 is solved, as in 14 is shown, presses the compression spring 55 the projections 9 the cutting mat 1 from the depression 23 of the carrier tool 17 , Due to the friction between compression spring 55 and vehicle tool 17 on the one hand and between compression spring 55 and cutting mat 1 On the other hand, the snow blade 1 also secured against twisting.

In the in 13 shown position of the fastening screw 57 can now the cutting mat 1 90 ° relative to the carrier tool 17 be turned and thus a worn cutting edge 3 through a sharp and unused edge 3 be replaced. Subsequently, the fastening screw 47 tightened again until the inventive positive connection between cutting mat 1 and vehicle tool 17 is restored.

When the last turn of the compression spring 55 has a slightly larger diameter than the other turns, then the duck feather 55 with her last turn in the cylindrical heel 51 in the mounting hole 25 of the carrier tool or in the through hole of the screed 1 fixed and secured against accidental falling out.

It goes without saying that the embodiments according to the 7 to 14 not necessarily with the cutting mat according to the invention 1 must be combined according to the embodiments 1 to 6. Rather, these handling systems can also be used successfully on other cutting boards.

Claims (20)

Cutting mat with more than two cutting edges ( 3 ) and with a through hole ( 7 ), whereby the cutting edges ( 3 ) Centrally symmetrical to the through hole ( 7 ) are arranged, characterized in that the side of the cutting mat ( 1 ) more than two protrusions ( 9 ) are formed, and that the more than two projections ( 9 ) Centrally symmetrical to the through hole ( 7 ) are arranged such that the number (n) of the cutting edges ( 3 ) equal to the number (m) of the projections ( 9 ) the cutting mat ( 1 ) and that each lead ( 9 ) at least one contact surface ( 13 ), and that the at least one contact surface ( 13 ) parallel to the longitudinal axis of the throughbore ( 7 ) runs. Cutting mat according to claim 1, characterized in that each projection ( 9 ) an end face ( 15 ), that the end faces ( 15 ) of the projections ( 9 ) perpendicular to a longitudinal axis of the throughbore ( 7 ), and that the end faces ( 15 ) of the projections ( 9 ) lie in one plane. Cutting mat according to claim 2, characterized in that the end faces ( 15 ) by a parting line ( 11 ) are separated from each other. Cutting mat according to one of the preceding claims, characterized in that each projection ( 9 ) two contact surfaces ( 13 ), and that the contact surfaces ( 13 ) enclose an angle of about 90 ° to each other. Cutting mat according to one of the preceding claims, characterized in that the cutting mat ( 1 ) four cutting edges ( 3 ) and four projections ( 9 ) having. Cutting mat according to one of the preceding claims, characterized in that in the end faces ( 15 ) of the projections ( 9 ) each have a depression, in particular a dome-shaped depression ( 43 ), is trained. Cutting mat according to one of the preceding claims, characterized in that concentric with the through-bore ( 7 ) in the end faces ( 15 ) of the projections ( 9 ) a circular guide groove ( 45 ) is provided. Cutting mat according to one of the preceding claims, characterized in that the through-bore ( 7 ) is designed as a stepped bore. Cutting mat according to claim 8, characterized in that the through-bore ( 7 ) one or more cylindrical sections ( 47 ) and / or one or more frusto-conical sections. Cutting mat according to one of the preceding claims, characterized in that the cutting edges ( 3 ) the cutting mat ( 1 ) have a width of 0.5 mm up to 3.15 mm. Cutting mat according to one of the preceding claims, characterized in that the cutting edges ( 3 ) the cutting mat ( 1 ) are suitable for threading. Carrier tool for a cutting mat ( 1 ) with more than two cutting edges ( 3 ), with a shaft ( 17 ), whereby the shaft ( 17 ) at least one side surface ( 21 ), wherein on the side surface ( 21 ) of the shaft ( 19 ) a recess ( 23 ) for receiving a cutting mat ( 1 ), wherein in the recess ( 23 ) a mounting hole ( 25 ) is provided for receiving a fastening screw, wherein the recess ( 23 ) a base area ( 33 ), that the base area ( 33 ) orthogonal to a longitudinal axis ( 31 ) of the mounting hole ( 25 ) and at least one side surface ( 27 ), characterized in that the at least one side surface ( 27 ) parallel to the longitudinal axis ( 31 ) of the mounting hole ( 25 ), and that the at least one side surface ( 27 ) and a contact surface ( 13 ) the cutting mat ( 1 ) cooperate positively. Carrier tool for a milling cutter with an exchangeable cutting mat ( 1 ) with more than two cutting edges ( 3 ) and with a shaft ( 41 ), characterized in that the shaft ( 41 ) at one end face at least one recess ( 23 ), that in each well ( 23 ) a mounting hole ( 25 ) is provided for receiving a fastening screw, that the at least one recess ( 23 ) a base area ( 33 ), and that the base area ( 33 ) orthogonal to a longitudinal axis ( 31 ) of the mounting hole ( 25 ) runs. Carrier tool according to claim 13, characterized in that the base surface ( 33 ) of two mutually parallel side surfaces ( 27 ) and that the side surfaces ( 27 ) parallel to the longitudinal axis ( 31 ) of the mounting hole ( 25 ). Carrier tool according to claim 13 and 14, characterized in that in the end face of the shaft ( 41 ) three depressions ( 23 ) are provided. Carrier tool according to claim 15, characterized in that the three recesses ( 23 ) around an angle of 120 ° offset from one another. Carrier tool according to one of claims 13 to 16, characterized in that at a transition between the base ( 33 ) in the at least one side surface ( 27 ) an undercut ( 34 ) is provided. Carrier tool according to one of claims 13 to 17, characterized in that in the base ( 33 ) of the depression ( 23 ) at least one resilient pressure pin ( 49 ) is provided. Carrier tool according to claim 18, characterized in that in the base ( 33 ) of the depression ( 23 ) two resilient pressure pins ( 49 ) are provided, and that the two resilient pressure pins ( 49 ) are arranged offset by 180 ° to each other. Carrier tool according to one of claims 13 to 19, characterized in that in the mounting hole ( 25 ) a cylindrical shoulder ( 51 ) for receiving a compression spring ( 55 ) is provided.