Abstract
A turning method for a CNC-lathe includes providing a metal work piece and a turning tool having a coupling portion, a first cutting element having a first cutting edge and a second cutting element having a second nose cutting edge separating and connecting a second forward cutting edge and a second rearward cutting edge. The method includes moving the turning tool in a first direction such that the first cutting edge is in cut, moving the turning tool in a direction such that the first cutting edge is moved away from the metal work piece and the second nose cutting edge is moved towards the metal work piece, and moving the turning tool in a second direction such that the second forward cutting edge is in cut at a second entering angle, which is 5-45, the second direction being in the opposite direction to the first direction.
Claims
1. A turning method for a CNC-lathe, comprising the steps of: providing a metal work piece; providing a turning tool, wherein the turning tool includes a coupling portion, wherein the coupling portion extends along a coupling axis, wherein the turning tool has a first cutting element and a second cutting element, wherein the first cutting element includes a first cutting edge;, wherein the second cutting element has a second nose cutting edge separating and connecting a second forward cutting edge and a second rearward cutting edge; rotating the metal work piece in one direction around a rotational axis thereof; moving the turning tool in a first direction such that the first cutting edge is in cut; moving the turning tool in a direction such that the first cutting edge is moved away from the metal work piece and such that the second nose cutting edge is moved towards the metal work piece; and moving the turning tool in a second direction such that the second forward cutting edge is in cut at an entering angle which is 5-45, wherein the second direction is in the opposite direction or substantially opposite direction to the first direction.
2. The turning method according to claim 1, wherein the first cutting element includes a first forward cutting edge and a first rearward cutting edge; wherein the first cutting edge is a first nose cutting edge, wherein the first nose cutting edge separates and connects the first forward cutting edge and the first rearward cutting edge, wherein when moving the turning tool in the first direction, the first forward cutting edge forms a first entering angle which is 5-45.
3. The turning method according to claim 1, wherein when moving the turning tool in the second direction, the second rearward cutting edge forms an obtuse back clearance angle.
4. The turning method according to claim 2, wherein when moving the turning tool in the first direction, the first rearward cutting edge forms an obtuse back clearance angle.
5. The turning method according to claim 1, wherein moving the turning tool in the second direction includes turning at least a portion of a surface machined when moving the turning tool in the first direction.
6. The turning method according to claim 1, wherein the step of moving the turning tool in the direction such that the first cutting edge is moved away from the metal work piece and such that the second nose cutting edge is moved towards the metal work piece, is without rotation of the turning tool around the coupling center axis.
7. The turning method according to claim 1, wherein the coupling axis is parallel to or perpendicular to the rotational axis.
8. The turning method according to claim 1, wherein the metal work piece is clamped by a clamping device, and wherein a distance from the clamping device to the second nose cutting edge is shorter than a distance from the clamping device to the first cutting edge.
9. The turning method according to claim 1, wherein the second nose cutting edge is in the first direction ahead of the first cutting edge when moving the turning tool in the first direction, and wherein the first cutting edge is in the second direction ahead of the second nose cutting edge when moving the turning tool in the second direction.
10. The turning method according to claim 1, wherein the second direction is in a direction away from a corner of the metal work piece.
11. The turning method according to claim 1, further comprising the step of turning in a third direction such that the second forward cutting edge is active at an obtuse entering angle, wherein the third direction is towards the rotational axis.
12. The turning method according to claim 1, wherein the first cutting element is a first turning insert, wherein the second cutting element is a second turning insert, wherein the first turning insert has a first top surface and a first bottom surface, wherein the first top surface and the first bottom surface are connected by a first side surface, wherein the second turning insert includes a second top surface and a second bottom surface, wherein the second top surface and the second bottom surface are connected by a second side surface, and wherein the first top surface and the second top surface includes chip breaking means.
13. The turning method according to claim 1, wherein the coupling portion is square or rectangular in a cross section or includes a conical or substantially conical portion.
14. The turning method according to claim 1, further comprising the step of arranging the turning tool such that the metal work piece is between the first cutting edge and the second nose cutting edge.
15. A computer program having instructions which when executed by a CNC-lathe causes the CNC-lathe to perform the steps according to claim 1.
Description
DESCRIPTION OF THE DRAWINGS
[0075] The present invention will now be explained in more detail by a de-scription of embodiments of the invention and by reference to the accompanying drawings.
[0076] FIG. 1 is a perspective view of a turning tool according to a first embodiment and a metal work piece.
[0077] FIG. 2 is a side view of the turning tool and metal work piece in FIG. 1.
[0078] FIG. 3 is a schematic bottom view of a part of the turning tool and metal work piece in FIG. 1.
[0079] FIG. 4 is a further bottom view of a part of the turning tool and metal work piece in FIG. 1.
[0080] FIG. 5 is a yet a bottom view of a part of the turning tool and metal work piece in FIG. 1.
[0081] FIG. 6 is a yet a bottom view of a part of the turning tool and metal work piece in FIG. 1.
[0082] FIG. 7 is a side view of a turning tool according to a second embodiment.
[0083] FIG. 8 is a side view of a turning tool according to a third em-bodiment and a metal work piece.
[0084] FIG. 9 is a perspective view of a turning tool according to a fourth embodiment.
[0085] FIG. 10 is a top view of the turning tool in FIG. 9.
[0086] FIG. 11 is a front view of the turning tool in FIG. 9.
[0087] FIG. 12 is a side view of the turning tool in FIG. 9.
[0088] FIG. 13 is a top view of the turning tool in FIG. 9 and a metal work piece.
[0089] FIG. 14 is a further top view of the turning tool in FIG. 9 and a metal work piece.
[0090] FIG. 15 is yet a top view of the turning tool in FIG. 9 and a metal work piece.
[0091] FIG. 16 is a perspective view of a turning tool according to a fifth embodiment.
[0092] FIG. 17 is a side view of the turning tool in FIG. 16.
[0093] FIG. 18 is a front view of the turning tool in FIG. 16.
[0094] FIG. 19 is a top view of the turning tool in FIG. 16.
[0095] FIG. 20 is a magnified view of section B in FIG. 19.
[0096] FIG. 21 is a top view of the turning tool in FIG. 16 and a metal work piece.
[0097] FIG. 22 is a side view of the turning tool in FIG. 16 and a metal work piece.
[0098] FIG. 23 is a top view of the turning tool in FIG. 16 and a metal work piece.
[0099] FIG. 24 is a schematic figure of moving a turning tool in a first direction.
[0100] FIG. 25 is a schematic figure of moving a turning tool in a second direction.
[0101] FIG. 26 is a further schematic figure of moving a turning tool in a second direction.
[0102] FIG. 27 is a schematic figure showing a first cutting element, a second cutting element and a rotating metal work piece in a cross section.
[0103] All turning tools in the figures are drawn to scale.
DETAILED DESCRIPTION OF EMBODIMENTS OF THE INVENTION
[0104] Reference is made to FIGS. 1-6 which show a turning tool 1 ac-cording to a first embodiment suitable for carrying out the above de-fined method. A metal work piece 2 is connected to a spindle (not shown) of a CNC-lathe (not shown) by clamping means (not shown). The turning tool 1 comprises a coupling portion 3 extending along a coupling axis A2. The coupling axis A2 defines a longitudi-nal axis of the turning tool 1. The forward direction is away from the coupling portion 3, i.e. the forward direction is substantially towards the left-hand side in FIG. 1. The rotational axis A1 of the metal work piece 2 is arranged perpendicular to and intersecting the coupling axis A2. The turning tool 1 comprises a first cutting element 7 in the form of a first turning insert 7 and a second cutting element 8 in the form of a second turning insert 8.
[0105] As seen in FIGS. 3-6, the first cutting element 7 comprises a first cutting edge 5 in the form of a first nose cutting edge 5, which sep-arates and connects a first forward cutting edge 12 and the first rearward cutting edge 14. The second turning insert 8 comprises a second nose cutting edge 6 separating and connecting a second forward cutting edge 13 and a second rearward cutting edge 15.
[0106] As seen in FIG. 2, the first turning insert 7 comprises a first top surface 20 and the second turning insert 8 comprises a second top surface 21. In FIG. 2, the metal work piece 2 rotates clock-wise around a rotational axis A1 thereof. The first cutting edge and the second nose cutting edge intersect or substantially intersect a plane com-prising the coupling axis A2 and the rotational axis A1. In FIG. 2, the first turning insert 7 is in cut and the second turning insert 8 is only a very small distance from the metal work piece 2. Preferably, the distance between the metal work piece 2 and the inactive second turning insert 8 is greater, such as shown in FIGS. 3 and 4.
[0107] In FIGS. 1 and 2, the turning tool 1 comprises an intermediate por-tion 33 in the form of a concave portion 33 or curved portion, con-necting the first and second turning inserts 7, 8. The intermediate portion 33 comprises an opening 41. The opening 41 or void or cav-ity makes room for a metal work piece to be machined. The con-cave portion 33 is curved around an axis perpendicular to the coupling axis A2, where said axis intersect said opening 41 or void or cavity. As can be seen in e.g. FIG. 2, the opening 41 opens radially in relation to the rotational axis A1. The turning tool 1 can be brought in the position as shown in FIG. 2 from above in FIG. 2, at least if the metal work piece 2 diameter is less than the distance between the first and second turning inserts 7, 8. This is an ad-vantage especially if the metal work piece 1 is long or is clamped at both ends.
[0108] The intermediate portion 33 comprises a first side surface 40 and an opposite second side surface. Due to the opening 41, the first side surface 40 does not surrounds or encloses the rotational axis A1. The first side surface 40 is extends in a plane which is perpen-dicular to the rotational axis A1. Said plane 40 is spaced apart from the coupling axis A2.
[0109] Protruding from the first side surface 40 are protruding portions 30, 31 in the form of replaceable cutting heads 30, 31, which are con-nected to the first side surface by clamping means. Each cutting head 30, 31 comprises at least one insert seat. The first and second turning inserts 7, 8 are connected to the first side surface 40 by means of a respective cutting heads 30, 31.
[0110] In FIG. 2, the rotational axis A1 is perpendicular to and intersecting the coupling axis A2. As seen in FIG. 2, the rotational axis A2 of the metal work piece 2 is between the first and second turning insert 7, 8. The coupling portion 3 comprises a tapered portion. The coupling portion 3 is quick-change coupling which in the industry is known as
[0111] Coromant Capto. In an alternative embodiment (not shown), the coupling portion 3 is square shaped in a cross section, and the coupling axis A2 is parallel to the coupling axis A2 in FIGS. 2 and 5-20 mm below the coupling axis A2 in FIG. 2.
[0112] When the first turning insert 7 is seen in a top view, as in e.g. FIG. 3, a first nose angle defined as an angle between the first forward cutting edge 12 and the first rearward cutting edge 14 is acute. When the second turning insert is seen in a top view, or in a bottom view as in e.g. FIG. 3, a second nose angle defined as an angle between the second forward cutting edge 13 and the second rearward cutting edge 15 is acute.
[0113] As seen in e.g. FIG. 1, a first through hole for a first screw (not shown) intersects the first top and first bottom surfaces, and a second through hole for a second screw (not shown) intersects the second top and first bottom surfaces.
[0114] FIGS. 3 and 4 show a first machining step where the turning tool 1 is moved in a first direction 17, perpendicular to the coupling axis A2.
[0115] The first forward cutting edge 12 forms an acute first entering angle. The first rearward cutting edge 14 forms an obtuse first back clearance angle. The first turning insert 7 is in cut. The second turning insert 8 is spaced apart from the metal work piece 2. The second nose cutting edge 6 is in the first direction 17 ahead of the first nose cutting edge 5.
[0116] After the step shown in FIGS. 3 and 4, the first turning insert 7 goes out of cut, and the turning tool 1 is moved in a direction 19 such that the first cutting edge 5 is moved away from the metal work piece 2 and such that the second nose cutting edge 6 is moved towards the metal work piece 2, as shown in FIG. 5. The first turning insert 7 is moved radially away from the rotational axis A1 of the metal work piece 2.
[0117] After the step shown in FIG. 5 follows the step shown in FIG. 6. FIG. 6 shows moving the turning tool 1 in a second direction 18, where the second direction 18 is in the opposite direction to the first direc-tion 17 shown in FIGS. 4 and 5. The second turning insert 8 is in cut. The first turning insert 7 is inactive. In other words, the first turning insert is spaced apart from the metal work piece 2. The second for-ward cutting edge 13 forms an acute second entering angle. The second rearward cutting edge 15 forms an obtuse second back clearance angle.
[0118] The metal work piece 2 rotates in the same direction around the ro-tational axis thereof A1 in FIGS. 3, 4 and 6.
[0119] FIG. 7 shows a turning tool 1 according to a second embodiment. The only substantial difference between the turning tool 1 according to the first and second embodiments is that the turning tool 1 ac-cording to the second embodiment comprises a third turning insert 9. While indexing from the first turning insert 7 to the second turning insert 8 or vice versa is through a movement of the turning tool 1 along the coupling axis A2, indexing to the third turning insert 9 is through a movement of the turning tool in a direction perpendicular to the coupling axis A2, more specifically downwards in FIG. 2. As seen in FIG. 7, the first and second turning inserts 7, 8 as well as the third turning insert 9 intersect an imaginary circle or cylinder C1 having a center axis A3 thereof perpendicular to the coupling axis A2. The first turning insert 7 is inclined in relation to the second turning insert 8 by an inclination angle w. The inclination angle w is measured around the center axis A3 of the imaginary circle C1. The second top surface 21 is facing in a direction which is perpendicular to the coupling axis A2 and perpendicular or substantially perpen-dicular to the center axis A3 of the imaginary circle or cylinder C1.
[0120] FIG. 8 shows a turning tool 1 according to a third embodiment and a metal work piece 2. The only substantial difference between the turning tool 1 according to the second and third embodiments is that the turning tool 1 according to the third embodiment comprises a fourth turning insert 10 and that the intermediate portion 33 enclos-es the rotational axis A1. In other words, the intermediate portion does not comprise a radial opening.
[0121] Reference is now to FIGS. 9-15 which show a turning tool 1 accord-ing to a fourth embodiment. The turning tool 1 comprising a coupling portion 3. The coupling portion 3 extends along a coupling axis A2, defining a longitudinal axis of the turning tool 1. The coupling portion defines the rear end of the turning tool 1. The turning tool 1 comprises a first cutting element 7 in the form of a first turning in-sert 7 and a second cutting element 8 in the form of a second turning insert 8. As seen in e.g. FIG. 10 the first turning insert 7 comprises a first forward cutting edge 12, a first rearward cutting edge 14 and a first nose cutting edge 5. The first nose cutting edge 5 is the part of the first turning insert 7 which is closest to the coupling axis A2. The second turning insert 8 comprises a second nose cutting edge 6, a second forward cutting edge 13 and a second rearward cutting edge 15. A first nose angle defined as an angle between the first forward cutting edge 12 and the first rearward cutting edge 14 is acute. A second nose angle defined as an angle between the second forward cutting edge 13 and the second rearward cutting edge 15 is acute. As seen in e.g. FIG. 10, measured along or parallel to the coupling axis A2, the second nose cutting edge 6 is forward of the first cutting edge 5. Forward is defined as away from the coupling portion 3, towards the first and second turning inserts 7, 8.
[0122] As seen in e.g. FIG. 11, the first turning insert 7 comprises a first top surface 20 and an opposite first bottom surface. The second turning insert 8 comprises a second top surface 21 and an opposite second bottom surface. The first top surface 20 comprises a first rake surface, and the second top surface 21 comprises a second rake surface. As seen in FIG. 11 the first and second cutting inserts 7, 8 intersect an imaginary circle or cylinder C1 having a center axis A3 thereof which parallel to the coupling axis A2. The first turning insert 7 is inclined in relation to the second turning insert 8 by an inclination angle w, where said inclination angle w is measured around the center axis A3 of the imaginary circle C1. The first top surface 20 is facing in a direction which is perpendicular to or substantially perpendicular to the coupling axis.
[0123] As seen in e.g. FIG. 9, the turning tool 1 comprises a forward facing surface 42, i.e. a surface facing away from the coupling portion 3. Two elements 30, 31 in the form of replaceable cutting heads 30, 31 which protrude in the forward direction from the forward facing surface 42. The first cutting head 30 comprises the first turning insert 7, meaning that the first cutting head comprises an insert seat in which the first turning insert 7 is mounted. The second cutting head 31 comprises the second cutting element 8. The cutting heads 30, 31 are spaced apart from the coupling axis A2.
[0124] The coupling portion 3 defines the rear end of the turning tool 1 and is suitable for being insert into a machine interface (not shown) which preferably comprise a cavity or a recess (not shown). The coupling portion 3 shown in e.g. FIG. 9 comprises a substantially conical or substantially tapered or tapered portion. The coupling portion is in the field of metal cutting tools known as Coromant Capto. Other types of coupling portions are possible, for example such known as square shank types. For example, if the coupling portion is of the square shank type, the cross section of the coupling por-tion, perpendicular to the coupling axis, is square shaped or rectangular shaped. Further, for such a turning tool, the coupling axis is parallel to and 5-20 mm below the coupling axis A2 in FIG. 12.
[0125] FIG. 13 shows a first machining step. A metal work piece 2 rotates in one direction around a rotational axis A1 thereof. The turning tool 1 is moved in a first direction 17 parallel to the coupling axis A2 and parallel to a rotational axis A1 of a metal work piece 2 thereof. The first direction 17 is a forward direction, i.e. in a direction away from the coupling portion 3 and in the direction which the forward facing surface 42 is facing. The top surface of the first turning insert 7 is facing the viewer in FIG. 13. A machined surface is formed by the first nose cutting edge 5, in other words the first nose cutting edge is a surface generating cutting edge. The first turning insert 7 is arranged such that the first forward cutting edge 12 forms an acute first entering angle a of 3-45. The first rearward cutting edge 14 forms an obtuse first back clearance angle y of 93135. The second turning insert 8 is spaced apart from the metal work piece 2.
[0126] When moving the turning tool 1 in the first direction 17, the second nose cutting edge 6 is ahead of the first nose cutting edge 5. As seen in FIG. 13, the turning tool 1 is arranged such that the metal work piece 2, which is cylindrical, is arranged between the first turning insert 7 and the second turning insert 8, wherein the rotational axis A1 which is a longitudinal axis A1 of the metal work piece (2) is between said turning inserts 7, 8.
[0127] FIG. 14 shows a step after the step shown in FIG. 13. The turning tool 1 is moved in a direction 19 such that the first nose cutting edge 5 is moved away from the metal work piece 2 and such that the second nose cutting edge 6 is moved towards the metal work piece 2. The turning tool 1 is moved in a direction 19 which is perpendicular to the coupling axis A2 and perpendicular to the rotational axis A1. Said movement is a linear movement.
[0128] FIG. 15 shows a step which is after the step shown in FIG. 14. The turning tool 18 is moved in a second direction 18. The second direction 18 is in the opposite direction to the first direction 17. The second forward cutting edge 13 forms an acute second entering angle of 345. The second rearward cutting edge 15 forms an obtuse second back clearance angle of 93135. The first turning insert 7 is spaced apart from the metal work piece 2. The first nose cutting edge 5 is ahead of the second nose cutting edge 6 in the second direction 18. At least a portion of the surface machined by the first turning insert 7 in the first step, showed in FIG. 13, is machined by the second turning insert 8.
[0129] Reference is now made to FIGS. 16-23, which show a turning tool 1 according to a fifth embodiment. The turning tool 1 comprising a coupling portion 3. The coupling portion 3 extends along a coupling axis A2. The coupling axis A2 defines a longitudinal axis of the turning tool 1. The coupling portion 3 comprises a conical or substantially conical portion. In the example, the substantially conical por-tion is according to what is in the industry is known as Coromant
[0130] Capto. The couping portion may have other shapes, such a shape which is square shaped or rectangular shaped in a cross section, where said cross section is perpendicular to the coupling axis., The turning tool 1 comprises a first cutting element 7 in the form of a first turning insert 7, a second cutting element 8 in the form of a second turning insert 8, and a third cutting element 9 in the form of a third turning insert 9. The first turning insert 7 comprises a first cutting edge 5 in the form of a first nose cutting edge 5, a first for-ward cutting edge 12 and a first rearward cutting edge 14. The first nose cutting edge 5 separates and connects the first forward cutting edge 12 and the first rearward cutting edge 14. The first turning in-sert 7 comprises a first top surface 20 and an opposite first bottom surface. The second turning insert 8 comprises a second nose cutting edge 6, a second forward cutting edge 13 and a second rearward cutting edge 15. The second nose cutting edge 6 separating and connecting a second forward cutting edge 13 and a second rearward cutting edge 15. In other words, the second forward cutting edge 13 and a second rearward cutting edge 15 converge towards the second nose cutting edge 6. The second cutting element 8 comprises a second top surface 21 and an opposite second bottom surface.
[0131] A first mid-plane P1 extends mid-way or substantially mid-way between the first top surface 20 and the first bottom surface. The first mid-plane P1 is parallel to or substantially parallel to the first bottom surface. In a corresponding manner, the second turning insert 8 comprises a second top surface 21 and an opposite second bottom surface, wherein a second mid-plane P2 extends mid-way or substantially mid-way between the second top surface 21 and the second bottom surface. The third turning insert 9 is arranged in a corresponding manner, having a third mid-plane P3 mid-way between a top and a bottom surface thereof. Said top surfaces 20, 21 are suitable to function as rake surfaces. The first, second and third mid-planes P1, P2, P3 extends in parallel or substantially parallel planes. As seen in e.g. FIG. 17, the first top surface 20 and the second top surface 21 are facing in the same or substantially the same direction, which is upwards in FIG. 17.
[0132] As seen in FIG. 18, a distance from the coupling axis A2 to the second nose cutting edge is greater than a distance from the coupling axis A2 to the first nose cutting edge 5. Said distances are meas-ured horizontally in FIG. 18. In other words, said distance from a first plane comprising the coupling axis, wherein said first plane is perpendicular to the first mid-plane. Thus, said distances are from said first plane and to the first nose cutting edge 5 and to the second nose cutting edge 6. In a top view, as seen in FIG. 19 and in FIG. is a magnified view of section B in FIG. 19, a first bisector between the first forward cutting edge 12 and the first rearward cutting edge 14 forms an angle of 45-90 in relation to a second bisector between the second forward cutting edge 13 and the second rearward cutting edge 15. It can also be seen that the first rearward cutting edge 14 and the second rearward cutting edge 15 forms an angle of 6-20 in relation to each other. Further, a distance from the first forward cutting edge 12 to the second forward cutting edge 13 is shorter than a distance from the first forward cutting edge 12 to the second rearward cutting edge 15. A first nose angle defined as an angle between the first forward cutting edge 12 and the first rearward cutting edge 14 is acute. A second nose angle defined as an angle between the second forward cutting edge 13 and the sec0nd rearward cutting edge 15 is acute. In e.g. FIG. 19 the first nose cutting edge 5 and the second nose cutting edge 6 are longitudinally at an equal or substantially equal distances. The first nose cutting edge 5 and/or the second nose cutting edge 6 is the longitudinally most distal part of the turning tool 1, where longitudinally is defined as along the coupling axis or along axii parallel to the coupling axis A2.
[0133] In FIG. 20 the first turning insert 7 and the second turning insert 8 partially overlap in a top view.
[0134] FIG. 21 show an example of a first step of a turning method for a
[0135] CNC-lathe (not shown). A metal work piece 2 is rotating in one direction 50 around a rotational axis A1 thereof. The coupling portion 3 of the turning tool 1 is connected to the CNC-lathe (not shown), more specifically the coupling portion is connected to a machine interface. The coupling axis A2 is perpendicular to the rotational axis
[0136] A1. The turning tool 1 is moved in a first direction 17 such that the first nose cutting edge 5 is in cut and such that the first forward cutting edge forms an acute entering angle. The first rearward cutting edge 14 forms an obtuse back clearance angle. The second and third turning inserts 8, 9 are spaced apart from the metal work piece 2. The second nose cutting edge is ahead of the first nose cutting edge 5 in the first direction 17. The first direction is parallel to the rotational axis A1.
[0137] After the first step, the turning tool 1 is moved in a direction 19 per-pendicular to the coupling axis A2 and perpendicular to the rotational axis A1, as seen in FIG. 22. Said direction is in the same direction or substantially the same direction as the first top surface 20 is facing. Said direction is not radially in relation to the rotational axis A1 but rather tangential in relation to the metal work piece 2. Said movement od the turning tool 1 is a linear movement, where the first nose cutting edge is moved further away from the metal work piece 2 and such that the second nose cutting edge 6 is moved closer to or towards the metal work piece 2. None of the first, second or third cutting inserts 7, 8, 9 are in cut.
[0138] FIG. 23 show a further step, which is after the step shown in FIG. 22. The turning tool 1 moved in a second direction 18 such that the second forward cutting edge 13 is in cut at an acute second entering angle which is 5-45. A machined surface is formed by the second nose cutting edge 6. The second direction 18 is in the opposite direction or substantially opposite direction to the first direc-tion 17. The second rearward cutting edge 15 forms an obtuse back clearance angle. The first nose cutting edge is ahead of the second nose cutting edge 6 in the second direction. The first and third turning inserts 7, 9 are spaced apart from the metal work piece 2. At least a portion of the machined surface resulting from the step shown in FIG. 21 is machined in the step shown in FIG. 23.
[0139] The metal work piece can have a different shape compared to what has been described above. The metal work piece may be in the form of a bar, a hollow bar or any other shape which has a rotational symmetry or substantially has a rotationally symmetry around a rotational axis thereof. The shape which can be machined can be of different configurations than what have been described above. For example, the shape can have not only one, but two side walls, i.e. surfaces which is in a plane perpendicular to the rotational axis. In other words, the turning tool can be used to machine an external groove.
[0140] FIG. 24 is a schematic figure of moving a turning tool in a first direc-tion 17 where the first cutting element 7 is in cut. The first direction 17 is a feed direction. The first forward cutting edge forms a first entering angle a which is 5-45, and the first rearward cutting edge forms an obtuse back clearance angle y of at least 91. The second cutting element 8 is spaced apart from the metal work piece 2. A machined surface 25 is formed by the first cutting element 7. More specifically, the surface 25 is formed by the first nose cutting edge 5.
[0141] FIG. 25 is a schematic figure of moving a turning tool in a second direction 18 where the second cutting element 8 is in cut. The second direction is a feed direction. The second forward cutting edge is 20 in cut at a second entering angle which is 5-45, and the second rearward cutting edge forms an obtuse back clearance angle . At least a portion of a surface 25 machined when moving the turning tool 1 in the first direction 17, seen in FIG. 24, is machined by means of the second cutting element 8 in FIG. 25, as well as in FIG. 26.
[0142] FIG. 26 is a further schematic figure of moving a turning tool in a second direction 18 where the second cutting element 8 is in cut. The second forward cutting edge is in cut at a second entering angle which is 5-45, and the second rearward cutting edge forms an obtuse back clearance angle . The second bottom surface is facing the viewer.
[0143] FIG. 24 show a first machining step, which can be followed by a step showed in either FIG. 25 or FIG. 26. If the turning tool is according to the fifth embodiment, the step shown in FIG. 25 applies, while if the turning tool is according to the first, second, third or fourth embodiments, the step shown in FIG. 26 applies. In FIG. 25, the second cutting element 8 is on the same side of the rotational axis A1 as the first cutting element 7 in FIG. 24, and the first top surface is facing the same direction as the second top surface. In contrast, in FIG. 26, the second cutting element 8 is on the opposite side of the rotational axis A1 as the first cutting element 7 in FIG. 24, and the first top surface is facing the opposite direction as the second top surface.
[0144] The metal work piece 2 in FIGS. 24-26 is clamped by clamping means 60 at one end. Said clamping means 60 are connected to and driven by a rotating or rotatable spindle (not shown), which are part of a CNC-lathe (not shown). Said clamping means may be in the form of e.g. a collet chuck, a 3-jaw chuck or a face driver. A distance from the clamping means 60 to the second nose cutting edge 6 is shorter than a distance from the clamping means 60 to the first cutting edge 5, where said distances are measured along lines parallel to the rotational axis A1. In FIGS. 24-26, the first direction 17 is away from the clamping means 60, and the second direction 18 is towards the clamping means. Alternatively (not shown), the first direction 17 is towards the clamping means 60, and the second direc-tion 18 is away from the clamping means. The first and second directions 17, 18 are thus in opposite directions along the rotational axis A1. Opposite directions can thus be understood as towards or away from the clamping means or towards or away from one longitudinal end of the metal work piece. The first and second directions are thus not necessarily linear and parallel to the rotational axis.
[0145] FIG. 27 is a schematic figure showing a first cutting element 7 in the form of a first turning insert 7, a second cutting element 8 in the form of a second turning insert 8 and a rotating metal work piece in a cross section. The first and second turning inserts 7, 8 are arranged according to the first, second, third or fourth turning tool embodiments. The first turning insert 7 comprises a first top surface 20 and a first bottom surface 22, both are horizontal or substantially horizontal. The second cutting insert 8 comprises second top surface 21 and a second bottom surface 23, both are horizontal or substantially horizontal. A first mid plane P1 is mid-way or substantially mid-way between the first top surface 20 and the first bottom surface 22. The first mid-plane P1 is parallel to or substantially parallel to the first bottom surface 22. The second mid plane P2 is arranged in a corresponding manner. The first and second mid planes P1, P2 are arranged in parallel planes. The metal work piece 2 rotates in one direction 50 around a rotational axis A1 thereof. The first and second turning inserts 7, 8 are located on opposite sides of the rotational axis A1. The first top surface 20 is facing upwards in the figure, and the second top surface 21 is facing downwards in the figure. When the first turning insert 7 is in cut, the second turning insert 8 is spaced apart from the metal work piece 2.
[0146] FIGS. 25 and 26 show how the second direction 18 is in a direction away from a corner of the metal work piece 2. In other words, the second direction 18 is in a direction away from a surface which is in a plane perpendicular to the rotational axis A1. Said corner, or a shoulder, is the intersection between a surface concentric with the rotational axis, and a second surface perpendicular to the rotational axis. Said corner is a 90 corner. Said corner is preferably completely formed by the second cutting element, where the turning tool is moved towards the rotational axis A1, immediately prior to mov-ing the turning tool in the second direction 18.
[0147] The first and second turning inserts 7, 8 described in the embodiments above are preferably made from a wear resistant material, preferably cemented carbide. The first and second top surfaces 20, 21 preferably comprises chip forming means or chip breaking means (not shown). Preferably, a distance from at least a portion of said chip forming means or chip breaking means to the mid-plane of the respective turning insert is greater than a distance from the cutting edge bordering to the top surface to said mid-plane. In other words, the top surfaces 20, 21 of the first and second turning in-serts comprises at least one protrusion, which in a side view is higher than or above the cutting edge. In such a way, the turning inserts are more suitable for turning.
[0148] The first and second turning inserts 7, 8 described in the embodiments above are preferably designed such that the first forward cutting edge 12 is sloping downwards, i.e. towards the first bottom surface 22, at increasing distance from the first nose cutting edge 5. The second forward cutting edge 13 is preferably arranged in a corresponding manner. In such a way, the chip control is further improved.
[0149] The forward and rearward cutting edges are forward and rearward in the respective feed directions, not necessarily forward or rearward in relation to forward or rearward directions of the turning tool itself.
