WO2016009995A1 - 刃先交換式回転切削工具 - Google Patents
刃先交換式回転切削工具 Download PDFInfo
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- WO2016009995A1 WO2016009995A1 PCT/JP2015/070057 JP2015070057W WO2016009995A1 WO 2016009995 A1 WO2016009995 A1 WO 2016009995A1 JP 2015070057 W JP2015070057 W JP 2015070057W WO 2016009995 A1 WO2016009995 A1 WO 2016009995A1
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- cutting edge
- cutting
- rotation
- tool
- insert
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C5/00—Milling-cutters
- B23C5/02—Milling-cutters characterised by the shape of the cutter
- B23C5/10—Shank-type cutters, i.e. with an integral shaft
- B23C5/109—Shank-type cutters, i.e. with an integral shaft with removable cutting inserts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C5/00—Milling-cutters
- B23C5/02—Milling-cutters characterised by the shape of the cutter
- B23C5/10—Shank-type cutters, i.e. with an integral shaft
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C5/00—Milling-cutters
- B23C5/16—Milling-cutters characterised by physical features other than shape
- B23C5/20—Milling-cutters characterised by physical features other than shape with removable cutter bits or teeth or cutting inserts
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C5/00—Milling-cutters
- B23C5/16—Milling-cutters characterised by physical features other than shape
- B23C5/20—Milling-cutters characterised by physical features other than shape with removable cutter bits or teeth or cutting inserts
- B23C5/202—Plate-like cutting inserts with special form
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2200/00—Details of milling cutting inserts
- B23C2200/04—Overall shape
- B23C2200/0477—Triangular
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2200/00—Details of milling cutting inserts
- B23C2200/20—Top or side views of the cutting edge
- B23C2200/206—Cutting edges having a wave-form
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2210/00—Details of milling cutters
- B23C2210/28—Arrangement of teeth
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23C—MILLING
- B23C2220/00—Details of milling processes
- B23C2220/60—Roughing
Definitions
- the present invention relates to a cutting edge exchange type rotary cutting tool. More specifically, the present invention relates to a cutting edge exchange type rotary cutting tool in the form of a luffing cutter in which a plurality of cutting inserts are detachably mounted.
- a plurality of grooves are formed from the distal end side to the proximal end side on the outer peripheral surface of a cylindrical tool body, and a plurality of cutting inserts are detachably mounted in the grooves in the tool rotation axis direction.
- a rotary cutting tool having such a shape is called a luffing cutter.
- the luffing cutter since a plurality of cutting inserts are arranged in the tool rotation axis direction, the length of the substantial cutting edge is long, and a large cut can be obtained. Therefore, high-efficiency machining can be realized.
- Patent Document 1 discloses a luffing cutter equipped with a rectangular cutting insert having a wavy cutting edge in a side view.
- the cutting inserts are arranged at intervals in the axial direction in the relationship in one groove, and in the relationship between the plurality of grooves, the cutting inserts are continuously arranged in the rotation trajectory around the axis of the wavy cutting edge in the axial direction. It arrange
- Patent Document 1 describes that by making the cutting edge into a wave shape, the chip is divided more finely than the length of the cutting edge, so that the chip disposal can be improved.
- An object of the present invention is to provide a cutting edge-replaceable cutting tool in the form of a luffing cutter capable of suppressing damage to the cutting edge portion.
- the present invention includes a substantially cylindrical tool body (20) having a rotation center axis (O), and a cutting insert (30) attached to the tool body (20), and the tool body (20).
- a plurality of grooves (27) are formed on the outer peripheral surface (23) of the steel sheet, and a plurality of insert seats (28) are formed in the groove (27).
- the cutting insert (30) is formed of the insert seat.
- the cutting insert (30) includes a rake face (31) and a flank face intersecting with the rake face (31) ( 33), and a main cutting edge (34) and a corner cutting edge (34) connected to the main cutting edge (34) at the intersecting ridge line portion of the rake face (31) and the flank face (33). 37) and a secondary cutting edge (37) connected to the corner cutting edge (37) 5) is formed, and the main cutting edge (34) is formed in a wave shape when viewed from the direction facing the rake face (31), and the cutting insert (30) is configured to rotate the cutting edge exchange type.
- one groove (27) is formed in a rotation locus formed by the main cutting edge (34) of each cutting insert (30).
- the present invention in the blade-tip-exchange-type rotary cutting tool (10) using the cutting insert (30) having a wavy main cutting edge, the above-mentioned part of cutting edges of the main cutting edge of the adjacent cutting insert (30) Since the portions form the same rotation trajectory, the cutting load per blade is reduced. Therefore, even if the part of the cutting edge of the main cutting edge is used as the inner cutting edge, it is possible to greatly suppress the chipping of the cutting edge.
- FIG. 3 It is a perspective view of one embodiment of a blade tip exchange type rotary cutting tool of the present invention. It is a side view of the blade-tip-exchange-type rotary cutting tool of FIG. It is a side view of the tool body currently used for one Embodiment of the blade-tip-exchange-type rotary cutting tool of this invention. It is the top view which looked at the tool body of FIG. 3 from the base end side. It is the bottom view which looked at the tool body of FIG. 3 from the front end side. It is a perspective view of the cutting insert currently used for one Embodiment of the blade-tip-exchange-type rotary cutting tool of this invention. It is a top view of the cutting insert of FIG.
- the cutting insert located at the most distal side is positioned at a certain angular position in the tool rotation direction. It is a figure which projects and shows the rotation locus of five cutting inserts to the cutting insert located in a base end position. It is a figure which expands and shows the part IX of FIG. 8, in order to demonstrate the overlap of the rotational locus of the cutting insert which adjoins in one groove
- the blade-tip-exchange-type rotary cutting tool 10 of the present embodiment is mounted on a substantially cylindrical tool body 20 having a plurality of insert seats 28 and these insert seats 28.
- a plurality of cutting inserts 30 are basically configured.
- the cutting edge exchange type rotary cutting tool 10 of the present embodiment may be called a luffing cutter.
- the tool body 20 has a first end surface 21 having a substantially circular shape, and a substantially circular shape that is disposed opposite to the first end surface 21 and is similar to the first end surface 21. It has a cylindrical shape composed of a second end surface 22 having a shape and an outer peripheral surface 23 connecting the end surfaces 21 and 22.
- the tool body 20 has a rotation center axis O that passes through the center point of the first end surface 21 and the center point of the second end surface 22.
- the cutting edge exchange type rotary cutting tool 10 rotates with the rotation center axis O as a reference.
- the first end surface 21 is an end surface disposed on the base end side of the tool body 20 and is also referred to as a base end surface.
- the base end side of the tool body 20 refers to the side mounted on the machine tool.
- the second end surface 22 is an end surface disposed on the front end side of the tool body 20 and is also referred to as a front end surface.
- the front end side of the tool body 20 refers to the side close to the workpiece.
- the tool body 20 is provided with a through hole 24 formed along the rotation center axis O from the first end surface 21 to the second end surface 22 and a plurality of coolant supply holes 25 through which coolant flows.
- a mounting bolt used when the tool body 20 is fixed to the machine tool arbor is inserted into the through hole 24.
- the first end surface 21 is formed with an opening portion of the through hole 24, an opening portion of the coolant supply hole 25, and a key groove 26 for transmitting power from the main shaft of the machine tool.
- the second end face 22 is formed with a notch formed by providing an opening of the through hole 24 and an insert seat 28.
- a plurality of grooves 27 are spirally formed on the outer peripheral surface 23 of the tool body 20 between the first end surface 21 and the second end surface 22.
- the groove 27 is formed to be twisted counterclockwise as viewed from the distal end surface of the tool body 20 from the proximal end side toward the distal end side.
- the groove 27 starts from the vicinity of the first end surface 21 of the tool body 20 and reaches the second end surface 22.
- the number of grooves 27 is four, but the number is not limited to this, and one or more grooves may be provided.
- a plurality of insert seats 28 are formed in the region of the groove 27 facing forward in the tool rotation direction.
- five insert seats 28 are provided for each groove 27, but the present invention is not limited to this, and two or more insert seats 28 may be provided.
- a plurality of coolant outlets 29 for ejecting coolant are provided in the region of the groove 27 facing the direction opposite to the tool rotation direction.
- the coolant outlet 29 communicates with the coolant supply hole 25.
- the number, arrangement location, and the like of the coolant jets 29 and the coolant supply holes 25 can be appropriately changed in view of the required cooling performance.
- the insert seat 28 located closest to the tool tip in the same groove 27 is the first stage
- the next insert seat 28 is the second stage
- the next insert seat 28 is the next.
- the third stage, the next insert seat 28 is defined as the fourth stage, and the most proximal insert seat 28 is defined as the fifth stage (uppermost stage).
- the insert seat 28 has a bottom surface 281 that contacts the lower surface (sitting surface) 32 of the cutting insert 30 and two side surfaces 282 that contact the outer peripheral surface (restraint surface) 33 of the cutting insert 30. It basically consists of
- the bottom surface 281 of the insert seat has approximately the same shape as the seating surface 32 of the cutting insert 30 to be attached. In the case of the present embodiment, the shape is substantially triangular, but is not limited to this.
- a fixing hole 283 for fixing the cutting insert 30 to the insert seat 28 by, for example, screwing is provided at a substantially central portion of the bottom surface 281. That is, the fixing hole 283 shown in FIG. 3 is expressed in a simplified manner, but a female screw is formed on the inner surface of the actual fixing hole 283.
- the shape of the bottom surface 281 and the side surface 282 of the insert seat 28 or the positional relationship thereof can be appropriately changed in relation to the shape of the cutting insert to be mounted.
- the cutting insert 30 used in the present embodiment is disposed so as to face the upper surface 31 whose basic outline shape is a substantially equilateral triangular shape, and the upper surface 31. It basically includes a triangular lower surface 32 and an outer peripheral surface 33 that connects the upper surface 31 and the lower surface 32. More specifically, since the vicinity of the apex of the triangle has a shape that is cut off by a line segment that is substantially orthogonal to one side, the upper side 31 of the upper surface 31 alternately intersects the long side portion and the short side portion. It can also be said that it has a hexagonal shape that is 120 ° rotationally symmetric.
- the angle formed by the upper surface 31 and the outer peripheral surface 33 is an acute angle, and the angle formed by the lower surface 32 and the outer peripheral surface 33 is an obtuse angle. Therefore, the cutting insert 30 is a so-called positive type.
- the upper surface 31 functions as a rake surface
- the outer peripheral surface 33 functions as a flank or restraint surface
- the lower surface 32 functions as a seating surface.
- a mounting hole 36 is provided so as to penetrate substantially the center of the upper surface 31 and the lower surface 32.
- a cutting edge is formed on a part of the intersecting ridgeline between the upper surface 31 and the outer peripheral surface 33. Specifically, a main cutting edge 34 is formed on the long side portion, a sub cutting edge 35 is formed on the short side portion, and a corner portion where the long side portion and the short side portion intersect at a substantially right angle is formed. A cutting edge 37 is formed. Therefore, the cutting insert 30 of the present embodiment has three sets of the main cutting edge 34, the sub cutting edge 35, and the corner cutting edge 37. Therefore, the cutting insert 30 is rotated 120.degree. Can be cut three times with one cutting insert 30.
- the shape and configuration of the cutting insert 30 used for the blade-tip-exchange-type rotary cutting tool 10 of the present invention are not limited to this, and can be changed as necessary.
- a negative type cutting insert in which the upper surface 31 and the lower surface 32 intersect at 90 ° with respect to the outer peripheral surface 33 may be used.
- the upper and lower surfaces are congruent and a cutting edge is formed also on the lower surface 32, a total of six cuttings can be performed by using the upper and lower surfaces reversed.
- the basic outline shape may be another polygon such as a quadrangle or a pentagon.
- the main cutting edge 34 is formed in a wave shape in a top view of the cutting insert 30 (FIG. 7).
- the “wave shape” means an outwardly curved cutting edge portion 341 that is curved in an arc shape toward the outside of the cutting insert 30 and an arc shape toward the inside of the cutting insert 30 in a top view of the cutting insert 30.
- This is a shape in which inwardly curved cutting edge portions 342 that are curved in a straight line are alternately connected.
- it is not always necessary that all portions of the wave are formed of arcuate curved portions, and for example, a part of the wave may be formed in a linear shape.
- the main cutting edge 34 is formed in a wave shape over its entire length, and has a sine wave shape.
- the portion of the outer peripheral surface 33 adjacent to the wavy main cutting edge 34 is also formed in a wavy shape following the main cutting edge 34.
- a wavy cutting edge basically, only the mountain portion (outward curved cutting edge portion 341) is involved in the cutting, so that the chips are finely divided.
- cutting resistance can be reduced. For this reason, it is suitable for a tool such as a luffing cutter that has a large cutting depth and a large amount of chip discharge and a high cutting resistance.
- the main cutting edge 34, the corner cutting edge 37, and the auxiliary cutting edge 35 along each side of the triangle are connected in this order to form one set. Yes. Accordingly, the secondary cutting edge 35 in one set is connected to another main cutting edge 34 in the adjacent set. A connection portion A1 between the secondary cutting edge 35 in one set and another main cutting edge 34 in the adjacent set and the vicinity thereof also function as the inner cutting edge 38.
- the “inner blade” is a function that does not function in normal transverse feed (feed in a plane perpendicular to the tool axis) and is used when feeding the tool in the tool axis direction as in ramping. It is a blade.
- the auxiliary cutting edge 35 which is provided in the cutting insert attached to the most advanced side and is involved in cutting, A portion provided on the side opposite to the side to which the corner cutting edge 37 is connected becomes the inner blade 38.
- the inner cutting edge 38 can be the inner cutting edge 38 from the connection point A1 between a set of sub cutting edges 35 and the adjacent main cutting edge 34.
- This is a cutting edge portion extending a certain length in the 34 direction. That is, in the outward curved cutting edge portion 341 of the main cutting edge 34, the vicinity of the outward curved cutting edge portion 351 located closest to the end (connection point A1) is a portion that also functions as the inner cutting edge.
- the outwardly curved cutting edge portion 351 at the end is the shape in which the position protruding most outward in the top view is the connection point A1 with the auxiliary cutting edge 35, that is, the point where the peak is highest (mountain It has a shape that ends at a half point.
- the width and angle are not constant. From the central point C of the main cutting edge 34 to both ends of the main cutting edge 34 (that is, the connection point A1 with the adjacent set of sub cutting edges 35 and the connection point A2 with the same set of corner cutting edges 37).
- the land width and the land angle are constant. Specifically, the land width is 0.15 mm and the land angle is 5 °.
- the land width and the land angle change from a point slightly approaching the center point C side from each connection point A1, A2.
- the land width increases from the center point C side toward the connection points A1 and A2, and the land angle changes.
- the land width is the widest and the land angle is the smallest.
- the land width is 0.2 mm and the land angle is 0 °.
- the lands 39 of the corner cutting edge 37 and the sub-cutting edge 35 are the same as the land width and the land angle at the connection portions A1 and A2 with the main cutting edge 34 over the entire length. Accordingly, the land width of the secondary cutting edge 35 and the main cutting edge 34 is 0.2 mm, and the land angle is 0 °.
- Such a cutting insert 30 is attached to the insert seat 28 of the tool body 20 by a fixing screw 40. At that time, the lower surface 32 of the cutting insert 30 and the bottom surface 281 of the insert seat 28 come into contact with each other. Further, the outer peripheral surface 33 of the cutting insert 30 and the side surface 282 of the insert seat 28 abut. At this time, as shown in FIG. 2, in the cutting insert 30, the main cutting edge 34 is arranged in a positional relationship parallel to the outer peripheral surface 23 on the outer peripheral surface 23 side of the tool body 20, and the sub cutting edge 35 is a tool.
- the body 20 is mounted so as to be arranged in a positional relationship parallel to the front end surface on the front end surface side.
- the cutting insert 30 may be fixed by a wedge, a holding piece or the like in addition to the fixing screw 40.
- the mounting hole 36 is formed such that both ends thereof are larger in diameter than the center portion, and the head of the fixing screw 40 is brought into contact with the stepped portion formed by the diameter enlarged portion of the mounting hole. If it is made to fix to, the protrusion which protrudes in the groove
- Cutting edges 34, 35, and 37 of cutting insert 30 contain cemented carbide, cermet, ceramic, a material coated with these, ultrahigh pressure sintered body containing diamond or cubic boron nitride, and cubic boron nitride. It can be made from a hard material such as a material coated with an ultra-high pressure sintered body. It is preferable that parts other than the cutting edges 34, 35, and 37 of the cutting insert 30 are made of the same hard material.
- five cutting inserts 30 are attached to each groove 27.
- the main cutting edge 34 is involved in the cutting of the side surface of the workpiece, and the secondary cutting edge 35 is the cutting of the bottom surface of the workpiece.
- the corner cutting edge 37 is involved in the cutting of the corner of the workpiece.
- the main cutting edge 34 is involved in the cutting of the side surface of the workpiece, but the secondary cutting edge 35 and the corner cutting edge 37 are involved in the cutting. There is no. That is, the secondary cutting edge 35 and the corner cutting edge 37 of the second to fifth cutting inserts 30 are arranged so as not to protrude beyond the rotation trajectory of the corresponding main cutting edge 34 of the cutting insert 30 in the other groove.
- each cutting insert 30 is arranged in a superposed manner in the direction of the rotation center axis O in one groove 27 in a side view of the tool body 20. More specifically, the main cutting edges 34 of the cutting inserts 30 adjacent in one groove overlap with each other in the cutting center axis O direction. As shown in FIG. 2, since the insert seats 28 are formed in a step shape in the spiral groove 27, the overlapping cutting inserts 30 can be arranged.
- the cutting insert 30 is arranged so as to partially overlap in the direction of the rotation center axis O in one groove 27.
- the cutting insert 30 has the following characteristic configuration. Yes.
- FIG. 8 shows a state in which the rotation trajectories 301 to 305 of five cutting inserts from the cutting insert located on the most distal side to the cutting insert located on the most proximal position are projected at a certain angular position in the tool rotation direction.
- the rotation trajectory formed by the main cutting edge 34 of each cutting insert 30 when the cutting edge exchange type rotary cutting tool 10 of this embodiment rotates around the rotation center axis O is a front view.
- the cutting inserts 30 are disposed so as to overlap in the direction of the rotation center axis O so that the phases of the waves of the rotation trajectories 301 to 305 formed by the adjacent cutting inserts 30 coincide.
- the wave of the rotation trajectory formed by the main cutting edge 34 of the cutting insert 30 is arranged so as to be continuous between the adjacent cutting inserts 30.
- the rotation trajectory formed by the main cutting edge 34 in each groove 27 (in FIG. 9, the second and third stages).
- the rotation trajectories 302 and 303) formed by the cutting inserts only the rotation trajectories formed by the outward curved cutting edge portion 341 located closest to the end of the main cutting edge 34 are in the direction of the rotation center axis O.
- the cutting insert 30 is arrange
- the cutting insert 30 is arranged with the phase of the wave of the rotation locus of the cutting tool 10 shifted in the direction of the tool rotation axis O.
- the phases of the waves of the rotation trajectories between the grooves 27 are not matched. That is, as shown in FIG. 10 in which the portion X in FIG. 8 is enlarged, the relationship between the cutting inserts at the first stage located on the foremost side of the grooves 27 adjacent in the circumferential direction is represented by a rotation locus 301 indicated by a solid line.
- the phase of the wave of the rotation locus shown by the broken line of the cutting insert adjacent in the circumferential direction is shifted.
- the cutting insert 30 has a main cutting edge 34 formed in a wave shape in plan view, and the cutting insert 30 is a cutting edge exchange type rotary cutting tool 10.
- the cutting insert 30 is a cutting edge exchange type rotary cutting tool 10.
- the fact that the phases of the wavy rotation trajectories of the adjacent cutting inserts 30 coincide with each other and the rotation trajectories formed by some of the cutting edge portions overlap is at least the end of the main cutting edge 34.
- the outward curved cutting edge portion 351 of the main cutting edge 34 can also function as the inner cutting edge 38. Therefore, in the cutting insert 30 arranged on the tool front end side, only the outward curved cutting edge portion 351 is used for two cutting operations on the side surface and the bottom surface of the workpiece. That is, the outward curved cutting edge portion 351 is used as the main cutting edge 34 and is also used as the inner cutting edge 38.
- the outwardly curved cutting edge portion 341 located on the most end side of the main cutting edge 34 (that is, relatively positioned on the front end side).
- the cutting inserts 30 are arranged so as to overlap with each other in the direction of the rotation center axis O so that only the two coincide with each other, but the present invention is not limited to this.
- all adjacent cutting inserts 30 are arranged so as to overlap each other in all the grooves 27, but the present invention is not limited to this. That is, even in a configuration in which some adjacent cutting inserts 30 are arranged so as to overlap each other in some grooves 27, it is possible to achieve the effect of suppressing the defect of the outward curved cutting edge portion 351 to some extent. it can. However, in order to maximize the defect suppressing effect, it is preferable that all adjacent cutting inserts 30 are arranged so as to overlap each other in all the grooves 27.
- the outer curved cutting edge portion 351 functions as the inner cutting edge 38 only in the cutting insert 30 positioned at the forefront. However, when the cutting inserts of the entire tool are simultaneously replaced, This is because the cutting insert that has been positioned on the base end side is used in exchange.
- the phase of the wave of the rotation trajectory is shifted in the direction of the tool rotation axis O and the cutting insert 30 is arranged, and the rotation trajectories of all the grooves 27 are overlapped.
- the phase of the wave of the rotation locus between the grooves 27 is not matched.
- the height difference between the crest and trough portions of the wavy rotation locus of the main cutting edge 34 when all the grooves 27 are overlapped is reduced, so that the amount of uncut residue due to the trough portions is reduced, and the work material processed surface The surface roughness is improved.
- lands 39 are formed on all the main cutting edges 34, the sub cutting edges 35, and the corner cutting edges 37 of the cutting insert 30, and the land width at the connection point A1 between the main cutting edges 34 and the sub cutting edges 35 is the main.
- the cutting edge 34 is configured to be larger than the land width at the center point C and so that the land angle at the connection point A1 is smaller than the land angle at the center point C.
- the inner blade of the cutting insert 30 positioned at the forefront of the tool in each groove 27. Since only 38 first contacts the bottom surface of the workpiece, the number of blades involved in cutting is reduced in this state.
- the region corresponding to the inner blade 38 of the cutting insert 30 positioned closest to the tool tip side is a single blade, and the inner blade of the cutting insert 30 positioned next to the tool tip side.
- a region corresponding to 38 is a two-blade, and a region corresponding to the inner blade 38 of the cutting insert 30 located on the tool tip side is a three-blade.
- the cutting resistance applied to the inner blade 38 becomes larger than that of the four-blade for the region corresponding to the inner blade 38 of the cutting insert 30 that is normal, that is, the tool tip 30 positioned next to the tool tip side.
- the structure that strengthens the land like this is effective.
- the land 39 is kept sharp and the cutting performance is maintained.
- the land width and the land angle of the auxiliary cutting edge 35 are preferably equal to the land width and the land angle of the connection point A1.
- the cutting insert 30 used in the present invention is not limited to one having a triangular shape in plan view. In other words, as long as the cutting edge part of the main cutting edge 34 is a cutting insert 30 configured to be used as the inner cutting edge 38, it can be applied to other shapes.
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Abstract
Description
Claims (8)
- 回転中心軸(O)を有する略円柱形状の工具ボデー(20)と、該工具ボデー(20)に装着された切削インサート(30)と、を有し、前記工具ボデー(20)の外周面(23)には複数の溝(27)が形成され、該溝(27)内には複数のインサート座(28)が形成されており、前記切削インサート(30)は、前記インサート座(27)に着脱自在に配置されている、刃先交換式回転切削工具(10)において、
前記切削インサート(30)は、すくい面(31)と、該すくい面(31)と交差する逃げ面(33)と、を有し、前記すくい面(31)と前記逃げ面(33)の交差稜線部には、主切れ刃(34)と、該主切れ刃(34)に接続するコーナ切れ刃(37)と、該コーナ切れ刃(37)に接続する副切れ刃(35)と、が形成され、
前記主切れ刃(34)は、前記すくい面(31)に対向する方向から見て波状に形成されており、
前記切削インサート(30)は、前記刃先交換式回転切削工具(10)が前記回転中心軸(O)周りを回転したときの、各々の前記切削インサート(30)の前記主切れ刃(34)が形成する回転軌跡にて、1つの前記溝(27)内で前記回転中心軸(O)に沿った方向に隣り合う前記切削インサート(30)が形成する回転軌跡の波の位相が一致するように配置され、且つ、少なくとも一部の前記切削インサート(30)は、前記主切れ刃(34)が形成する回転軌跡のうち、一部の切れ刃部分が形成する回転軌跡同士が前記回転中心軸(O)方向に重なり合うように配置されている、
ことを特徴とする刃先交換式回転切削工具(10)。 - 前記主切れ刃(34)は、前記すくい面(31)に対向する方向から見て、外方に向かって湾曲する外方湾曲切れ刃部分(341)を複数有する波状に形成されており、
各々の前記溝(27)において、前記少なくとも一部の切削インサート(30)は、前記主切れ刃(34)が形成する回転軌跡のうち、前記主切れ刃(34)の最も端部側に位置している外方湾曲切れ刃部分(341)が形成する回転軌跡同士のみが前記回転中心軸(O)方向に重なり合うように配置されている、
ことを特徴とする請求項1に記載の刃先交換式回転切削工具(10)。 - 全ての前記溝(27)において、全ての隣接する前記切削インサート(30)は、前記端部の回転軌跡同士が前記回転中心軸(O)方向に重なり合うように配置されている、
ことを特徴とする請求項1又は2に記載の刃先交換式回転切削工具(10)。 - 前記工具ボデー(20)の周方向に隣接する前記溝(27)に配置される前記切削インサートの回転軌跡同士の関係において、当該回転軌跡の波の位相が工具回転軸(O)方向にずらされて前記切削インサート(30)が配置されており、全ての前記溝(27)の回転軌跡を重ね合わせたときに、前記溝(27)同士の回転軌跡の波の位相が一致しないように構成されている、
ことを特徴とする請求項1から3のいずれかに記載の刃先交換式回転切削工具(10)。 - 前記切削インサート(30)の前記副切れ刃(35)には、前記主切れ刃(34)とは別の主切れ刃(34)が接続しており、
全ての前記主切れ刃(34)、前記副切れ刃(35)及び前記コーナ切れ刃(37)にはランド(39)が形成されており、
前記別の主切れ刃(34)と前記副切れ刃(35)の接続点(A1)のランド幅は、該別の主切れ刃(34)の中央点(C)におけるランド幅よりも大きく、
前記別の主切れ刃(34)と前記副切れ刃(35)の接続点(A1)のランド角は、該別の主切れ刃(34)の中央点(C)におけるランド角よりも小さい、
ことを特徴とする請求項1から4のいずれかに記載の刃先交換式回転切削工具(10)。 - 前記副切れ刃(35)のランド幅及びランド角は、前記接続点(A1)のランド幅及びランド角と等しい、
ことを特徴とする請求項5に記載の刃先交換式回転切削工具(10)。 - 前記切削インサート(30)は、前記すくい面(31)に対向する方向から見て略三角形形状を有している、
ことを特徴とする請求項1から6のいずれかに記載の刃先交換式回転切削工具(10)。 - 前記切削インサート(30)は、前記略三角形の各辺に沿って前記主切れ刃(34)が形成され、
前記複数の外方湾曲切れ刃部分(341)のうち、前記主切れ刃(34)の端部にあって前記副切れ刃(35)と接続する外方湾曲切れ刃部分(351)が、内刃(38)としても使用される、
ことを特徴とする請求項7に記載の刃先交換式回転切削工具(10)。
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JP2015543211A JP6011831B2 (ja) | 2014-07-14 | 2015-07-13 | 刃先交換式回転切削工具 |
CN201580003184.XA CN105813785B (zh) | 2014-07-14 | 2015-07-13 | 刀头更换式旋转切削工具 |
EP15821813.1A EP3147057B1 (en) | 2014-07-14 | 2015-07-13 | Indexable rotary cutting tool |
US15/312,755 US10124423B2 (en) | 2014-07-14 | 2015-07-13 | Rotary cutting tool having adjacent cutting inserts with wave-shaped edges and overlapping rotational trajectories coinciding in phase |
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CN107234285B (zh) * | 2017-05-17 | 2020-07-17 | 贺州学院 | 一种成型铣刀及其制造方法 |
CN112108697B (zh) | 2019-06-20 | 2024-08-06 | 肯纳金属印度有限公司 | 具有容纳间隙角不同的切割插入件的凹穴的工具固持器 |
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EP3147057A4 (en) | 2017-09-13 |
EP3147057B1 (en) | 2022-03-02 |
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CN105813785B (zh) | 2017-08-18 |
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