Milling tools and set of cutters for a milling tool

专利摘要:
The invention concerns a milling tool for slot milling and a set of milling inserts of the milling tool. The milling tool comprises a tool body (2), a plurality of separated first seats (11; fig 6 ), which form root insert seats for root inserts (21) arranged one after the other along a first line, a plurality of separated flank insert seats (12,13; fig 6 ) that comprise a plurality of second seats (12) for flank inserts (22) arranged one after the other along a second line on a primary side of the root insert seats, and a plurality of third seats (13) for flank inserts (22) arranged one after the other along a third line on a secondary side (7) of the root insert seats. Each flank insert seat (12,13) comprises a bottom surface (16), an inner side surface (17), and an outer side surface (18). Each flank insert (22; Figs 17-21 ) comprises an under side (51), an opposite upper side (52), and a circumferential edge side (53) connecting the upper side (52) and the under side (51). A centre axis (A) extends through the upper side (52) and under side (51) of the flank insert (22). The edge side (53) of the flank insert (22) forms a rake face.
公开号:SE1250448A1
申请号:SE1250448
申请日:2012-05-04
公开日:2013-11-05
发明作者:Thomas Saagstroem
申请人:Sandvik Intellectual Property；
IPC主号:

专利说明:

[22] According to a further embodiment of the invention, the rake surface of the root vessel extends in a spreading plane comprising the primary main cutting edge and the secondary main cutting edge, a normal to the spreading plane forming an acute slack angle with the edge side at least near said cutting edge of the root vessel. that the root vessel obtains a positive joint geometry.
[23] The present invention will now be explained in more detail by means of a description of various embodiments and with reference to the accompanying drawings.
[24] FIG. 1 schematically shows a machine tool M with a cutting tool 1 which is designed for cutting machining and more specifically for saving milling of a workpiece W. The cutting tool 1 is suitable for cutting machining of a number of different workpieces W where one or more cutting pieces are desired, for example splines , gears, racks, etc.
[25] A first embodiment of the power tool 1 is shown in more detail in Figs. 2-8. The tool 1 comprises a tool body 2, which may be made of steel, and a large number of replaceable inserts 21, 22, which may be made of a material which is harder than steel, for example cemented carbide. The tool body 2 defines a rotation axis Ci and has a primary side 6 and an opposite secondary side 7. The rotation axis Ci extends through the primary side 6 and the secondary side 7.
[26] The power tool 1 also comprises a continuous axial hall 8 with a straight groove 9 for receiving a stay or drive shaft 10, for example in accordance with DIN 138. The rod 10 is designed for fastening the power tool 1 in a tool spindle of the machine tool M, which can be a phrase or a multi-operation machine. The tool body 2 is rotatable about the axis of rotation C1 in a direction of rotation R1. The workpiece W is attached to the lamp set, stationary or movable. The workpiece W can be displaceable in relation to the power tool 1 along a feed direction F1 for co-milling and in a feed direction F2 for counter-milling. Of course, the feed movement can instead be achieved by displacing the milling tool 1 with a stationary workpiece W.
[27] The tool body 1 comprises a plurality of first set 11 separated in a circumferential direction, a plurality of second sets 12 separated in the circumferential direction and a plurality of third sets 13 separated in the circumferential direction. The first sets 11 form the root set set and are arranged one after the other in the tool body 1 along a first line L1, see Figs. 4 and 8, which extend around the axis of rotation C. The second sets 12, see Fig. 4, form the flank set, which are arranged one after the other along a second line L2 which extends around the axis of rotation Ci on the primary side 6. The third sets 13, see Fig. 6, form the flank sets, which are arranged one after the other along a third line L3 which extends around the axis of rotation Ci on the secondary side 7.
[28] Each first set 11 comprises a bottom surface 14 and an inner support surface 15, see Fig. 6. The second sets 12 and the third sets 13 are identical but symmetrically arranged on each side of the first sets 11, i.e. omrotskarssatena. Each flank carcass, ie. each second sate 12 and third sate 13, comprises a bottom surface 16, an inner side surface 17 and an outer side surface 18, see Fig. 6.
[29] Each first sate 11 comprises a replaceable root vessel 21 and each flank vessel site, i.e. each second sate 12 and each third sate 13, comprises a replaceable flank vessel 22. The flank vessel 22 for the second sates 12 and for the third sates 13 may advantageously, but need not necessarily, be identical.
[30] The bottom surface 14 of each first sate 11 comprises an elevation, preferably in the form of a radial elongate axis 19, which extends from the bottom surface 14 and outwards, especially in a radial or substantially radial direction, see Fig. 6. The elongate axis 19 has two inclined flank surfaces extending between the bottom surface 14 and an upper surface of the elongate shaft 19. The two flank surfaces form an obtuse angle with each other. This angle can be 90 "- 140, for example 120. The upper surface can be flat and parallel to the bottom surface 14.
[31] Each root canal 21, see Figs. 10-16, comprises a lower side 31, an opposite upper side 32, which forms a chip surface, and a circumferential edge side 33 which connects the upper side 32 and the lower side 31.
[32] The primary main vessel edge 36 and the secondary main vessel edge 37 converge towards each other. The rake surface 21 of the root vessel 21 extends in a plane of propagation P1, which, in the embodiments shown, comprises or is parallel to the primary main vessel edge 36 and the secondary main vessel edge 37. Each root vessel 21 further comprises a line of symmetry S which is perpendicular to a tangent of the first line L1. The elongate valley 34 also extends parallel to the line of symmetry S. The primary main vessel edge 36 and the secondary main vessel edge 37 are symmetrical with respect to the line of symmetry S. The duct vessel edge 38 may, but need not necessarily, be perpendicular to the line of symmetry S. In the embodiments shown, 33 also has a rear side 39 extending perpendicular to the line of symmetry and parallel to the edge of the duck vessel 38.
[33] A normal to the plane of propagation P1 forms an acute slack angle α with the edge side 33 at least near or along the primary main vessel edge 36 and the secondary main vessel edge 37 so that the root vessel 21 obtains a positive joint geometry. Advantageously, an acute slack angle α is formed with the edge side 33 also along the duck vessel edge 38 so that the root vessel 21 obtains a positive joint geometry also with respect to the duck vessel edge 38. It should be noted, however, that the duck vessel edge 38 is not in cutting operation with the workpiece W. It should also be noted that the slack angle α along the duck vessel edge 38 may have a different magnitude than the slack angle α along the primary main shear edge 36 and the second main shear edge 37.
[34] Each root cutter 21 is arranged in a first set 11 in such a way that the underside 31 abuts the bottom surface 14. When the root cutter 21 is mounted in the first set 11 of the elongate shaft 19, it engages with the elongate valley 34 of the root cutter 21. underside 31 on such that the axial position of the root vessel 21 with respect to the axis of rotation Ci is stable. When the root vessel 21 is mounted in the first seat 11, the flank surfaces of the elongate shaft 19 will abut each of the flank surfaces of the elongate valley 34. There may advantageously be a space between the upper surface of the shaft 19 and the bottom surface of the valley 34. Furthermore, the rear side 39 of the root vessel 21 abuts against the inner support surface 15 which secures the radial position of the root vessel 21 in relation to the axis of rotation C1.
[35] In the embodiments shown, each root vessel 21 is secured in the respective first set 11 by means of a wedge-shaped block 40 which abuts against the upper side 32 of the root vessel 21 and presses the root vessel 21 against the bottom surface 14 and against the inner support surface 15. The wedge-shaped block 40 is frame against the root vessel 21 by means of a double-threaded screw 41, see Fig. 6, which extends through and engages the wedge-shaped block 40 and a threaded hall (not shown) in the tool body 2. It should be noted that the root vessel 21 can also be screwed on others sat, for example by means of a fixing screw which extends through a slide in the root vessel 21 and into the tool body 2.
[36] Each flank edge 22, see Figs. 17-20, comprises a lower side 51, an opposite upper side 52, and a circumferential edge side 53, which connects the upper side 52 and the lower side 51. The lower side 51 and the upper side 52 each define their distribution plane which are parallel to each other. Each flank shoulder 22 defines a center axis A extending through the top 52 and bottom side 51 of the flank shoulder 22.
[37] The edge side 53 of the flank 22 forms a chip surface and comprises four edge side sections. In the embodiments shown, the edge side 53 comprises two edge side sections 53a and 53b, each of which forms its own chip surface and its flank edge 55a, 55b together with the top 52. The above-mentioned cutting width corresponds to the length of the edge edge edge 55a, 55b. In the embodiments shown, the flank vessel 22 is thus indexable by rotation 1800 about the center axis A. In the embodiments shown, the flank vessel 22 is also indexable by rotation 180 ° about an axis perpendicular to the center axis A. Through such indexing, the two edge side sections 53a and 53b to each form a flank edge 56a, 56b together with the underside 51.
[38] Thus, in the embodiments shown, each flank vessel 22 has four flank vessel edges 55a, 55b, 56a and 56b, which can form the active flank vessel edge by indexing. The edge side 53 thus comprises in the embodiment shown two edge side sections 53c and 53d which do not form any cutting edges with the upper side 52 and the lower side 51. However, it should be noted that these four edges can also be designed as flank edge edges, the flank vessel 22 having a square shape seen in the center axis A direction.
[39] Each flank vessel 22 has a retaining member 58 extending through the upper side 52 and the lower side 51. Each flank vessel 22 is fixed and secured in its respective second or third sate 12, 13 by means of a fixed stem 59, see Fig. 6, which extends through the retaining member 58 into a passageway 60 which extends through the bottom surface 16 into the tool body 2. By means of the retaining screw 59 the underside 51, or upper side 52, of the flank vessel 22 is pressed against the bottom surface 16 of the set 12, 13 with a pressing force. 13
[40] The fastening screw 59 extends in a fastening direction which has an axial component which is considerably larger than other directional components of the fastening direction. The fixed screw 59 presses the underside 51, or upper side 52, of the flank vessel 22 against the bottom surface 16 with a main force component of said pressing force. At the same time, one of the edge side sections 53a, 53b is pressed against the outer side surface 18 with a first smaller force component of said pressing force. Furthermore, the fastening screw 59 will also press one of the edge side sections 53c and 53d of the flank vessel 22 against the inner surface 17 with a second smaller force component of said pressing force. Preferably, the second smaller power component is smaller than the first smaller power component.
[41] In the embodiments shown in Figs. 1-9, the first line L1, as well as the second and third lines L2 and L3, extend parallel to each other and with a plane perpendicular to the axis of rotation C1. Furthermore, the plane of propagation P1 of each root vessel 21 in the embodiments shown has a normal which is parallel to a tangent has the first line L1 where it intersects the plane of propagation P1. It should be noted, however, that it is possible to let this normal tilt in relation to said key.
[42] In the embodiment shown in Figs. 1-8, the primary main cutting edge 36 of the root vessel 21 and the flanking vessel edge 56b of the flanking vessel 22 in said second sate 12 extend in a projection along their respective common lines, which comprise sections which overlap each other and extends in a common direction, see Fig. 5. In the same way, the secondary main cutting edge 37 of the root vessel 21 and the flanking edge edge 56a of the flanking vessel 22 in said third set 13 extend in a projection along their common line, which comprise sections which overlap. and extends in a common direction, see Fig. 5.
[43] In the embodiment shown in Fig. 9, the main cutting edge 36 of the root vessel 21 and the flanking edge edge 56b of the flanking vessel 22 in said second sate 12 extend in a projection along their common line, which comprise sections which cross each other and 14 form a blunt angle. Similarly, the secondary main edge edge 37 of the root vessel 21 and the flank vessel edge 56a of the flank vessel 22 in said third set 13 extend in a projection along their respective common lines, which comprise sections which intersect and form an obtuse angle γ. In Fig. 9, the flank vessel 22 flank edge 56a projected adjacent to the secondary main edge edge 37 of the root vessel 21.
[44] In the embodiments shown in Figs. 1-9, the lines L1, L2 and L3 extend in an axial plane intersected by the axis of rotation C1 at a right angle. Such milling tools are especially suitable for milling spars in splines and racks.
[45] Figs. 22-24 illustrate another embodiment in which the lines L1, L2 and L3 form an angle with the axis of rotation C. More specifically, these lines form a helical line with a constant pitch. The angle of inclination 6 can be 1-10 °. Such a milling tool, which otherwise has the same design as the milling tool in Figs. 1-9, is particularly suitable for tooth cutting and can form a hob or part of a hob. In this case, several milling tools 1 of the type shown in Figs. 22-24 can be arranged next to each other and fixed in relation to each other so that the lines L1, L2 and L3 each form their own constant pitch line for the hob tool. In this embodiment it is also advantageous that the span surface of the root vessel 21 extends in a distribution plane P1 which comprises the primary main cutting edge 36 and the secondary main cutting edge 37. In order to obtain a high accuracy of the teeth to be cut and especially of the teeth of the teeth, it is advantageously if the plane of propagation P1 of each root vessel 21 has a normal which is parallel to a tangent of the first line L1 where this line intersects the plane of propagation P1. Such a design can also be advantageous for the embodiments shown in Figs. 1-9.
[46] It should be noted that in the embodiments shown, the root cutters 21 can be provided with chip-forming or chip-breaking means extending above or below the spreading plane P1 and / or the main cutting edges 36, 37 and the duck cutting edge 38.
[47] It should be noted that the root cuttings 21 may comprise edge deflections of the primary and secondary main cervical edges 36, 37 near the duct cervical edge 38 to provide so-called protuberance. These outer edge deflections thus form protuberance cuttings edges which can propagate in, or parallel to. with, the plane of propagation P1. These protuberance edges allow for a deeper or wider cut near the bottom surface of the groove of the workpiece W.
[48] The invention is not limited to the embodiments shown but can be varied and modified within the scope of the appended claims. 16 [0049) List of reference signs 1frasverktyg 2verktygskropp 6primar side 7sekundar side 8axiellt slippery 9spar stay 11forsta sate 12Other sate 13tredje sate 14bottenyta inner support surface 16bottenyta 17inre side surface 18yttre side surface 19langstrackt as 21rotskar 22flankskar 31undersida 32ovansida 33kantsida 34langstrackt valley 36primar main cutting edge 37sekundar main cutting edge 38andskarkant 39bakre side wedge block 41dubbelgangad screw 51undersida 52ovansida 53kantsida 53a-53d of the side edge section 55a, 55b flank cutting edge 56a, 56b flank cutting edge 58fasthal 59fastskruv 17 60gangat slippery Mverktygsmaskin Warbetsstycke Cirotationsaxel Rirotationsriktning F1matningsriktning F2matningsriktning L1f6rsta line L2andra line L3tredje line P1utbredningsplan aslappningsvinkel Ssymmetrilinje Acentrumaxel 6stigningsvinkel (3vinkel yprojicerade angle 18

权利要求:
Claims (18)
[1]
A tool body defining an axis of rotation (CO 1) - a plurality of circumferentially spaced first sets (11) forming the root core set and arranged one after the other in the tool body along a first line (L1) extending around the axis of rotation (CO 2) a plurality of circumferentially spaced flank sets, the flank sets comprising a plurality of second sets (12) arranged one after the other along a second line (L2) extending about the axis of rotation (CO on a primary side (6) of the root sets, and a plurality of third sets (13) arranged one after the other along a third line (L3) extending about the axis of rotation (CO on a secondary side (7) of the root vessel sets, each flank set comprising a bottom surface (16), an inner side surface (17) and an outer side surface (18), each root vessel set comprising a replaceable root vessel (21), each flank vessel set comprising a replaceable flank core (22), each root vessel (21) comprising a sub-side (31), an opposite upper side (32) forming a chip surface, a circumferential edge side (33) connecting the upper side (32) and the lower side (31), and at least one primary main cutting edge (36) and a secondary main cutting edge (37), which converges towards each other and is formed where the edge side (33) faces the upper side (32), each flank edge (22) comprising a lower side (51), an opposite upper side (52), and a circumferential edge side (53) connecting the upper side (52) and the underside (51), and each flank shoulder (22) defining a center axis (A) extending through the upper side (52) and underside (51) of the flank shoulder (22), characterized in that the edge side (53) of the flank shoulder (22) forms a chip surface .
[2]
The tool of claim 1, wherein the edge side (53) comprises a plurality of edge side sections (53a, 53b) each forming a chip surface and each flank edge (55a, 55b) together with the top side (52).
[3]
A tool according to any one of claims 1 and 2, wherein the distance between the upper side (52) and the lower side (51) of each flank cutter (22) 19 is substantially shorter than the shortest length of the top side (52) of the flank cutter (22) along a direction intersecting center axis (A).
[4]
A power tool according to any one of claims 1 to 3, wherein each flank (22) has a footrest (58) extending through the top (52) and the bottom (51).
[5]
A tool according to claim 4, wherein each flank cutter (22) is fixed in its respective flank cutter set (12, 13) by means of a fixed strut (59) extending through the feed tail (58) into the tool body (2) and pressing the flank cutter (22) against the flank set (12, 13) with a pressing force.
[6]
A tool according to claim 5, wherein the screw (59) extends in a fastening direction having an axial component which is considerably larger than other directional components of the fastening direction.
[7]
A tool according to any one of claims 5 and 6, wherein the screw (59) presses the underside (51) of the flank shield (22) against the bottom surface (16) with a main force component of said pressing force and one of the edge side sections (53a, 53b) against the outer side surface. (18) with a first minor force component of said compressive force.
[8]
A tool according to claim 7, wherein the screw screw also presses another edge side section (53c, 53d) of the flank insert (22) against the inner side surface (17) with a second smaller force component of said pressing force.
[9]
A power tool according to claim 8, wherein the second smaller force component is smaller than the first smaller force component.
[10]
A tool according to any one of the preceding claims, wherein the primary main cutting edge (36) of the root vessel (21) and the flank cutting edge (55a) of the flank cutting (22) in said second set (12) in a projection extend along their respective common line, which comprise sections which cross or overlap each other and wherein the secondary main cutting edge (37) of the root vessel (21) and the flank cutting edge (55b) of the flank cutting (22) in said third sate (13) in a projection extend along their respective common line, which comprise sections which cross or overlap.
[11]
A tool according to any one of the preceding claims, wherein the root cutter (21) and the various flank cutters (22) are arranged in an alternating order with respect to the circumferential direction.
[12]
A tool according to claim 11, wherein the alternating arrangement is such that one of the root cuts (21) is followed by a flank cut (22) on one of the primary side (6) and the second side (7) and this is in turn followed by a flank cut (22) on the other of the primary side (6) and the secondary side (7).
[13]
A tool according to claim 11, wherein the alternating arrangement is such that one of the root cuts (21) is followed by a flank cut (22) on one of the primary side (6) and the second side (7), which in turn is followed by a root vessel (21) which is then followed by a flank cutting (22) on the other of the primary side (6) and the secondary side (7).
[14]
A frying tool according to any one of the preceding claims, wherein the cutting surface of the root vessel (21) extends in a spreading plane (131) comprising the primary main cutting edge (36) and the secondary main cutting edge (37) and wherein the spreading plane (1 ° 1) of each root cut (21) has a normal which is parallel to a tangent of the first line (L1) ddr this cut the plane of propagation (PO.
[15]
A tool according to any one of the preceding claims, wherein each root cutter (21) comprises a line of symmetry (S) perpendicular to a tangent of the first line (L1), and wherein the primary main cutting edge (36) and the secondary main cutting edge (37) are symmetrical with respect to the line of symmetry (S).
[16]
A set of shears has a power tool for saving milling, comprising at least one root shear (21) and at least one flank shear (22), 21 wherein said root shear (21) comprises a lower side (31), an opposite upper side (32), which is designed to form a chip surface, a circumferential edge side (33) connecting the top side (32) and the bottom side (31), and at least one primary head edge (36) and a secondary head edge (37), which converge towards each other and form the edge side (33) facing the top (32), said flanks (22) comprising a bottom (51), an opposite top (52), and a circumferential edge side (53) connecting the top (52) and the bottom (51), and said flanks (22) defining a center axis (A) extending through the upper side (52) and lower side (51) of the flank vessel (22), characterized in that the edge side (53) of the flank vessel (22) forms a chip surface.
[17]
The kit of claim 16, wherein each root vessel (21) comprises a transverse duck vessel edge (38) extending between the primary main vessel edge (36) and the secondary main vessel edge (37).
[18]
An assembly according to any one of claims 16 and 17, wherein the cutting surface of the root vessel (21) extends in a distribution plane (P1) comprising the primary main cutting edge (36) and the secondary main cutting edge (37) and wherein a normal to the plane of propagation (1 ° 1) forms an acute angle of relaxation (a) with the edge side (33) at least in the vicinity of said cutting edges (36, 37) of the root vessel (21) so that the root vessel (21) obtains a positive joint geometry. 1/7 21 22 21 22 21 22 22 21/22 21

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法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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SE1250448A|SE537439C2|2012-05-04|2012-05-04|Milling tools and set of cutters for a milling tool intended for groove milling|SE1250448A| SE537439C2|2012-05-04|2012-05-04|Milling tools and set of cutters for a milling tool intended for groove milling|

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EP13164732.3A| EP2659999B1|2012-05-04|2013-04-22|A milling tool|

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US13/872,273| US8961075B2|2012-05-04|2013-04-29|Milling tool as well as set of milling inserts of a milling tool|

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KR1020130049644A| KR20130124212A|2012-05-04|2013-05-02|A milling tool as well as set of milling inserts of a milling tool|

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JP2013096712A| JP6184734B2|2012-05-04|2013-05-02|Milling tools and milling insert sets for milling tools|

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CN201310160660.1A| CN103381500B|2012-05-04|2013-05-03|A milling tool as well as set of milling inserts of a milling tool|