• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The cutting tool assembly of the present invention has a cutting insert 14 with a cylindrical portion 44 that is generally cylindrical and an axially extending radial protrusion 46. The cutting insert 14 is located in the insert retaining portion 18 with an axially extending radial protrusion 46 protruding from the axially extending hole. The cutting insert 14 is fastened in position using a radial elastic force imposed by a fastening jaw 24 on the overall cylindrical portion 44 of the cutting insert 14.
    公开号:KR20020020807A
    申请号:KR1020027001510
    申请日:2000-07-30
    公开日:2002-03-15
    发明作者:헤흐트길
    申请人:에란 마르쿠스 : 탈 샬모니;이스카 엘티디.;
    IPC主号:
    专利说明:

    Cutting tool assembly {CUTTING TOOL ASSEMBLY}
    [2] Tool holders with cutting inserts are often used when performing internal turning operations. The tool holder includes an elongated rod with a cutting insert secured to its front end using retaining screws. If the machined bore has a small diameter, for example 6 mm or less, the cutting insert and retaining screw become smaller, making it difficult to operate and ergonomically bad. In addition, the presence of threaded bores in the cutting insert limits the miniaturization of the cutting tool assembly.
    [3] A possible solution to the problem described above is to produce long rod and cutting inserts as an integral piece made of adhesive carbide. However, this solution does not solve the problem of using a costly and replaceable cutting insert.
    [4] It is therefore an object of the present invention to provide replaceable cutting inserts and cutting tools which are not fixed by retaining screws and can be used, in particular, for small diameter internal turning operations.
    [1] The present invention relates to a cutting tool assembly and specifically to a self retaining cutting insert for use in internal turning operations.
    [56] To better understand the present invention and to show how the invention is actually performed, reference is made to the following drawings.
    [57] 1 is a partial perspective view of a cutting tool assembly in accordance with the present invention.
    [58] 2 is an exploded view of the cutting tool assembly of FIG.
    [59] 3 is an end view of the insert retention portion of FIG. 2 with the cutting insert positioned therein prior to rotation of the cutting insert;
    [60] 4 is an end view of the insert retaining portion of FIG. 2 with the cutting insert engaged;
    [61] 5 is a plan view of the front portion of the cutting tool assembly of FIG.
    [62] Fig. 6 is an exploded perspective view showing another embodiment of the insert retaining portion according to the present invention in which the first positioning surface has a V-shaped groove and the cutting insert has a complementary V-shaped projection.
    [63] Fig. 7 is an exploded perspective view showing another embodiment of the insert retaining portion according to the present invention in which the first positioning surface is convex and the cutting insert has a concave surface that is complementary.
    [64] 8 is an exploded perspective view showing another embodiment of an insert retaining portion according to the present invention in which the first positioning surface is concave and the cutting insert has a convex surface that is complementary.
    [65] 9 is a schematic end view of an insert retaining portion according to the present invention with a double-sided cutting insert mounted.
    [66] 10 is an exploded view of a cutting tool assembly according to the present invention with the cutting insert holder having a bore positioned centrally and the cutting insert having a through bore.
    [67] 11 is a perspective view of a cutting insert according to the present invention with an extended rear cylindrical portion.
    [68] Figure 12 is a perspective view of a first embodiment of an insert mounting key according to the present invention capable of mounting a cutting insert in a cutting insert holder and holding a plurality of cutting inserts therein.
    [69] Figure 13 is a perspective view of an insert removal key according to the present invention for removing a cutting insert from a cutting insert holder.
    [70] Figure 14 is a partial perspective view of a second embodiment of an insert mounting key according to the present invention for a cutting insert without an axial bore;
    [71] Figure 15 is an exploded perspective view of the insert key of Figure 14;
    [72] Figure 16 is a longitudinal sectional view of the insert key of Figure 14;
    [73] Figure 17 shows various steps of assembling the cutting insert in the cutting insert holder and showing a third embodiment of the insert mounting key according to the invention which can accommodate multiple cutting inserts held in the same plane. Perspective view.
    [74] 18 is a top view of the insert key of FIG.
    [75] FIG. 19 is a cross-sectional view taken along the line VIII-VIII in FIG.
    [76] 20 is a cross-sectional view taken along the line VIII-VIII in FIG.
    [77] Figure 21 is a perspective view of the internal turning cutting tool in accordance with the present invention.
    [5] According to the present invention, there is provided a cutting tool assembly comprising a cutting insert holder 12 and a cutting insert, the cutting insert holder comprising a body portion 16 and an insert holding portion 18, the insert The retention portion has a generally cylindrical inner surface 32 of diameter D1 and longitudinal axis A,
    [6] The insert retaining portion 18 comprises an axially extending fastening jaw 24 with a fastening portion 22 connected to the body portion 16 and a radially facing fastening surface, the axially extending fastening jaw ( 24 is connected to a fixture 22 on one side along the axially extending connection 25 and on the other side along the axially extending free end 30 by an axially extending hole 27. And axially extending holes 27 are axially extending first positions of the fixing portion 22 adjacent the inner surface 32 on the opposite side by the free end 30 of the fastening jaw 24 on one side. Bounded by a set surface 36,
    [7] The cutting insert 14 comprises an overall cylindrical portion 44 with an axially extending radial protrusion 46 and a longitudinal axis B connected thereto, the radial protrusion 46 having an upper portion connected to the cylindrical portion 44. And a lower surface 55, 62, the upper surface 55 and the side surface 57 at least partially meet at an edge forming the cutting edge 56, and the lower surface 62 is the first positioning surface. Configure
    [8] The cutting insert 14 is located in the insert retaining portion 18 with the axially extending radial protrusion 46 protruding from the axially extending hole 27 and the first positioning surface 62 of the cutting insert. Is adjacent to the first positioning surface 36 of the insert retaining portion 19, and the cutting insert 14 is fastening surface of the fastening jaw 24 on the overall cylindrical portion 44 of the cutting insert 14. It is fastened in place using the radial elastic force exerted by 42.
    [9] According to a preferred embodiment, the cutting insert 14 has an axially extending central position through bore 66 and the cutting insert holder 12 is opened in the rear wall 45 of the insert retaining portion 18. A joint central position bore 43 is provided.
    [10] Preferably, the cylindrical portion 44 is an axial extension that is larger than the axial extension of the radial protrusion 46.
    [11] According to a preferred embodiment of the invention, the overall cylindrical portion 44 of the cutting insert 14 has three axially extending ribs 50, 52, 54.
    [12] Typically, two of the three axially extending ribs 50, 52 have a radially outermost zone lying on a cylindrical contour of diameter D2 with a longitudinal axis B as the axis.
    [13] Typically, D2 is the same as D1.
    [14] Also, typically, one of the three axially extending ribs 54 has a radially outermost zone lying on a cylindrical contour of diameter D3.
    [15] Preferably, D3 is greater than D1.
    [16] Also preferably, D3 is greater than D2.
    [17] According to a preferred embodiment of the invention, the three axially extending ribs 50, 52, 54 are arranged at an angle of 120 ° from each other with respect to the axis B.
    [18] Typically, the cutting insert is fastened to a position with a fastening surface 42 of the fastening jaw 24 adjacent the axially extending ribs 54 of the overall cylindrical portion 44.
    [19] According to a preferred embodiment of the invention, the fastening jaw 24 is wider at the connection 25 than the free end 30 and tapered from the connection to the free end.
    [20] Also in accordance with a preferred embodiment of the present invention, the fastening jaw 24 is thicker at the connection 25 than at the free end 30.
    [21] Also in accordance with a preferred embodiment of the present invention, the axially extending first positioning surface 62 of the cutting insert 14 and the axially extending first positioning of the fixing portion 22 of the insert retaining portion 18. Surface 36 is planar.
    [22] Also in accordance with a preferred embodiment of the invention, the insert retaining portion 18 of the cutting insert holder 12 has a generally axial second positioning surface 38 adjacent to and traversing the first positioning surface. Further provided, the cutting insert 14 is provided with a second positioning surface 64 adjacent and across the first positioning surface 38, the second positioning surface 64 of the cutting insert being Abuts the second positioning surface 38 of the cutting insert holder 12.
    [23] According to one aspect of the invention, the axially extending first positioning surface of the cutting insert is generally in the form of a V-shaped protrusion 143 and the axially extending first positioning surface of the fastener of the insert retaining portion is complementary. In the form of a V-shaped groove 135.
    [24] According to another aspect of the invention, the axially extending first positioning surface 343 of the cutting insert is entirely convex and the axially extending first positioning surface of the fixture of the insert retaining portion is a concave surface of complementary form ( 335).
    [25] According to another aspect of the invention, the axially extending first positioning surface 243 of the cutting insert is entirely concave and the axially extending first positioning surface of the fixture of the insert retaining portion is a convex surface of complementary form ( 235).
    [26] According to a preferred embodiment of the invention, the fastening jaw 24 is further provided with an axially extending groove 40 which merges with the fastening surface 42 of the fastening jaw.
    [27] According to another embodiment of the invention, the cutting insert is generally symmetric about the plane of symmetry M and has two sets of cutting edges 456 ', 456 "on both sides of the plane of symmetry.
    [28] According to the invention, there is further provided a cutting insert 14 comprising an overall cylindrical portion 44 having a longitudinal axis B and an axially extending radial protrusion 46 connected thereto, wherein the radial protrusion is provided in the cylindrical portion. The top surface 55 and the side surface 57 meet at an edge that is at least a part of the cutting edge 56, and are separated by the side surface 57 with connected top and bottom surfaces 55, 62. 62 constitutes a first positioning surface.
    [29] According to a preferred embodiment, the cutting insert 14 is provided with an axially extending central position through bore 66.
    [30] According to a preferred embodiment of the present invention, the overall cylindrical portion of the cutting insert is provided with three axially extending ribs 50, 52, 54.
    [31] Typically, two of the three axially extending ribs 50, 52 have a radially outermost zone lying on a cylindrical contour of diameter D2 with a longitudinal axis B as the axis.
    [32] Also, typically, one of the three axially extending ribs 54 has a radially outermost zone lying on a cylindrical contour of diameter D3.
    [33] Preferably, D3 is greater than D2.
    [34] According to a preferred embodiment of the invention, the three axially extending ribs 50, 52, 54 are arranged at an angle of 120 ° from each other with respect to the axis B.
    [35] In addition, according to a preferred embodiment of the present invention, the first positioning surface 62 is planar.
    [36] Furthermore, according to the invention, the radial protrusion 46 is provided with a first positioning surface 62 and a second positioning surface 64 across it.
    [37] According to one aspect of the invention, the axially extending first positioning surface of the cutting insert is generally in the form of a V-shaped protrusion 143.
    [38] According to another aspect of the invention, the axially extending first positioning surface 343 of the cutting insert is convex.
    [39] According to another aspect of the invention, the axially extending first positioning surface 23 of the cutting insert is concave.
    [40] According to the invention, there is further provided insert keys 70, 500 for mounting the cutting insert on the cutting insert holder 12, the insert height being
    [41] A peripheral surface 71 extending from the rear portion 73 of the insert key to its front portion 75 and comprising a lateral surface 72 and a front surface 74,
    [42] Substantially rectangular with an generally cylindrical inner sidewall 80, open to the front surface 74 in a substantially circular hole 77, and extending axially along it from the front surface 74 where the circular and square holes meet. A cavity 76 that opens into the lateral surface 72 in the phosphorus hole.
    [43] According to one embodiment, the insert key 70 is further concentric with the cylindrical inner sidewall 80 and further extends an elongated pin 92 extending from the rear portion 73 of the insert key toward the front surface 74. Equipped.
    [44] If desired, the insert key 500 is provided with an open end sleeve 510 made of an elastic material and slidably insertable into the cavity 76, the sleeve 510 closing the entire cylindrical cavity 512 and sleeve. It has a substantially rectangular hole 513 that extends along and coincides with the rectangular hole 78 in the lateral surface of the insert key when the sleeve is positioned in the cavity 76.
    [45] According to the invention, there is further provided an insert key 70a for removing the cutting insert from the cutting insert holder 12, wherein the insert key is:
    [46] A peripheral surface 71 extending from the rear portion 73 of the insert key to its front portion 75 and comprising a lateral surface 72 and a front surface 74,
    [47] A substantially rectangular shape having a generally cylindrical inner sidewall 80 and opening to the front surface 74 in a substantially circular hole 77 and extending axially along it from the front surface 74 where the circular and square holes meet. A cavity 76 that opens into the side surface 72 in the hole 78,
    [48] And a first transverse hole 79a located rearward of the front surface and extending from the inner sidewall to the lateral surface and transverse from the substantially rectangular hole.
    [49] If necessary, the insert key 70a is provided with a second transverse hole 81a opposite the first transverse hole with respect to the rectangular hole 78.
    [50] According to one embodiment, the insert key 70a is further provided with an elongate pin 92 concentric with the cylindrical inner sidewall 80 and extending from the rear portion 73 of the insert key toward the front surface 74. do.
    [51] In addition, according to the invention, an insert key 600 is also provided for mounting the cutting insert 14 on the cutting insert holder 12, the cutting insert being connected to the longitudinal axis B and to it. An overall cylindrical portion 44 with an axially extending radial protrusion 46, the radial protrusion having a top and bottom surface 55, 62 connected to the cylindrical portion, separated by a lateral surface 57, the top surface 55 and the side surface 57 meet at an edge which is at least a part of the cutting edge 56, the lower surface 62 constitutes a first positioning surface,
    [52] Insertion key 600 includes a base plate 602 with a plurality of insert retaining pockets 604, each insert retaining pocket defining a peripheral surface 606 and an axial adjacent surface 608 connected thereto. And two retaining members 616, 618 are shearedly connected to the base plate 602, which releasably retains the entire cylindrical portion 44 of the cutting insert 14, and stops the cutting insert from rotating. The portion 614 is connected to the base plate 602.
    [53] According to a preferred embodiment, the cutting insert anti-rotation stop 614 is a tangential portion of the radially outwardly extending groove 612 in the base plate 602.
    [54] In addition, according to a preferred embodiment, the insert retaining pocket 604 is provided with two holes 615, 617 positioned between the axially adjacent surface 608 and the peripheral surface 606, and the retaining member 616, 618 is located above each hole 615, 617, the size and shape of each hole being to allow the free passage of the retaining member to pass in the axial direction.
    [55] Preferably, retaining members 616 and 618 are shear connected to axially adjacent surface 608 by rim 610.
    [78] Reference is first made to FIGS. 1 to 5. As shown, the cutting tool assembly 10 includes a cutting insert holder 12 and a cutting insert 14 mounted thereto. The cutting insert holder 12 has a body portion 16 and an insert retaining portion 18 in its front portion 20. The insert retaining portion includes a fixing portion 22 having a longitudinal axis A and integrally connected to the body portion and an axially extending fastening jaw 24 connected to the fixing portion on one side along the axially extending connection 25. do. An axially extending hole 27 separates between the free end 30 of the fastening jaw and the axially extending tangential surface 36 which constitutes the first positioning surface. The fastening jaw 24 is separated from the tool body 16 by the slot 26. As shown in FIG. 5, the slot 26 is adjacent to the bottom 28 of the slot 26, that is, the width W1 of the fastening jaw 24 at the connection 25 is at its free end 30. Slope to be greater than the width W2). Also, as best shown in FIGS. 2 and 5, the slot 26 is inclined rearward from its periphery 29 toward its interior 31.
    [79] As shown in FIG. 3, the fastening jaw 24 has a thickness T1 in the region of the connection 25, a thickness T2 at the free end 30, and T1 is greater than T2. Therefore, the fastening jaw 24 is tapered towards its free end in both width and thickness, resulting in better strength of the elastic portion.
    [80] The fixing portion 22 has an inner surface 32 and an outer portion 34. The outer portion 34 comprises a first positioning surface 36 adjacent the inner surface 32 and a flat second positioning surface 38 which is axially generally and adjacent to the first positioning surface 36. In the embodiment shown in Figure 2, the first positioning surface constitutes a tangentially adjacent surface and the second positioning surface is perpendicular to and constitutes an axially adjacent surface. The inner surface 32 lies on a cylindrical outline of diameter D1 having an axis A as the axis.
    [81] The fastening jaw 24 has an axially extending groove 40 on its inner side along its entire width. The groove 40 merges with the inner adjacent surface 32 on one side thereof, and with the fastening surface 42 near the free end 30 on the other side and away from the fixing portion 22. The fastening surface 42 lies on the same cylindrical contour as that of the inner adjacent surface 32.
    [82] The cutting insert 14 comprises an overall cylindrical portion 44 with a longitudinal axis B and an axially extending radial protrusion 46. The cylindrical portion has three axially extending ribs 50, 52, 54, and is preferably arranged at an angle of 120 ° with respect to axis B from each other. The radially outermost zone of each of the first and second ribs 50, 52 constitutes an adjacent surface for contacting the inner surface 32 of the fixing part 22, respectively, and lies on a cylindrical contour of diameter D2. And has a longitudinal axis B as the axis. It is preferable that diameter D2 is the same as D1. The radially outermost zone of the third rib 54 constitutes a fastening adjacent surface to be brought into contact by the fastening surface 42 of the fastening jaw 24 and lies on a cylindrical contour of diameter D3 greater than D1.
    [83] The axially extending radial protrusions 46 have upper and lower surfaces 55, 62 connected to the cylindrical portion 44, respectively, and are separated by the side surfaces 57. At the radial extreme of the radial protrusion 46, a cutting edge 56 is formed between the rake surface 58 in the upper surface 55 and the release surface 60 in the side surface 57. The lower surface 62 of the radial protrusion 46 is flat, generally tangential and constitutes the first positioning surface of the cutting insert. The rear portion of the side surface 57 is flat, generally axial, and constitutes the second positioning surface 64 of the cutting insert. In the embodiment shown in FIG. 2, the first positioning surface 62 is perpendicular to the second positioning surface 64 which constitutes the tangentially adjacent surface of the cutting insert and which constitutes the axially adjacent surface of the cutting insert. .
    [84] The cutting tool assembly 10 of the present invention is actually useful for small diameter cutting tools for performing internal turning operations. Such a tool is used inside the bore having an internal diameter in the range of 3 mm to 6 mm. The insert retention portion 18 has a size TD in the range of 3 to 6 mm, preferably 4 mm. The total insert size TD is in the range of 2 to 6 mm, preferably 3 to 5 mm.
    [85] 6, 7 and 8, three different embodiments of the present invention will be described. These embodiments are actually useful for cutting operations where the forward axial force tends to extract the cutting insert from the insert retaining portion.
    [86] All three embodiments are based on replacing planar tangential adjacent surfaces 36, 62 with non-planar surfaces. The non-planar adjacent surface includes both tangential and axial adjacent surface elements, and the axial adjacent surface 38 is not required for these three embodiments, as shown in FIG. In Fig. 6, the planar tangential adjacent surface 36 is replaced by an axially extending and generally tangential V-shaped groove 135 comprising a central portion 137 and respective rear and front perimeters 139 and 141, respectively. The planar tangential abutment surface 62 is replaced by an entirely V-shaped projection 143 that is generally tangentially extending in a complementary axial direction, including a central portion 145 and respective rear and front perimeters 147, 149. do. In FIG. 7, the planar tangential adjacent surface 36 is replaced by an axially extending and generally tangentially convex surface 235 and the tangential tangential adjacent surface 62 is axially formed to mate with the convex surface 235. It is replaced by a generally tangentially concave surface 243 extending. In FIG. 8, the planar tangential adjacent surface 36 is replaced by an axially extending and generally tangentially concave surface 335 and the tangential tangential adjacent surface 62 is axially formed to mate with the concave surface 335. It is replaced by the extending tangentially facing convex surface 343.
    [87] 9 illustrates an application of the present invention to a double-sided cutting insert 414 fastened within the cutting insert holder 412. The cutting insert 414 is of similar construction to the raise insert 14 except that it is generally symmetric about the plane of symmetry M. The cutting insert 414 has two sets of cutting edges 456 ', 456 "on both sides of the plane of symmetry M which are symmetrical to the plane of symmetry M, two sets of first adjacent surfaces 450', 450". ), Second adjacent surfaces 452 ', 452 "and fastening adjacent surfaces 454', 454". When the cutting insert 414 is engaged within the cutting edge 456 'which is the effective cutting edge and the cutting insert holder 412, only one set of adjacent surfaces 450', 452 ', 454' is adjacent. In the closed position and the other sets 450 ", 452", 454 "are free.
    [88] 10 shows another embodiment of a cutting tool assembly in which the cutting insert is provided with an axially extending central position through bore 66 and the cutting insert holder 12 is provided with a rear wall (20) of the insert retaining portion 18. A combined central position bore 43 is provided which is opened into 45. As described in more detail below, the bores 66 and 43 may be used during assembly and disassembly of the cutting tool assembly. Bore 66, 43 may also be utilized as a cooling fluid duct.
    [89] Figure 11 shows another embodiment of the cutting insert of the present invention and the axially extending cylindrical portion 44 extends behind the axially extending radial protrusion 46 by DL. In this embodiment, the rear wall 45 of the insert retaining portion 18 is recessed by DL. This embodiment provides additional stability to the cutting tool assembly and weakens the clamping force applied on the cutting insert.
    [90] Assembly of the cutting tool assembly 10 is described with respect to the cutting insert 14 and the cutting insert holder 12 shown in FIGS. First, the central portion 44 is located in front of the insert retaining portion 18 coaxial with the axis A and has a direction such that the rib 54 is aligned with the groove 40. The cutting insert 14 is then inserted into the insert retaining portion of the cutting insert holder until the tangential adjacent surface 62 of the radial protrusion 46 is opposite to the tangential adjacent surface 36 of the outer portion 34. Introduced into (18), in this embodiment, is achieved by the adjacency of the axial adjoining surface 64 against the axial adjacency surface 38. The size of the groove 40 is such that the rib 54 can be freely received therein. In this position, the ribs 52 of the central portion 44 are located outside the inner surface 32 and the entire cutting insert 14 is freely replaceable within the insert retaining portion 18. Finally, the cutting insert 14 is closed until the tangentially adjacent surface 62 of the radial protrusion 46 abuts the tangentially adjacent surface 36 of the fixture 22, as shown by arrow F in FIG. Rotate clockwise. In this position, the ribs 50, 52 are adjacent to the inner surface 32 and the fastening surface 42 is adjacent to the rib 54 to fasten the cutting insert into the insert retaining portion.
    [91] Since the ribs 54 lie on a cylindrical contour of diameter D3 larger than the diameter D1 on which the fastening surface 42 rests, the fastening jaws 24 are moved radially outwards to elastically fasten on the cutting insert. Will be Therefore, the cutting insert 14 is fixedly fastened inside the insert holding portion 18. Removal of the cutting insert 14 is performed in the reverse order.
    [92] It is evident that the assembly of the cutting tool assembly with the cutting insert and associated cutting insert holder shown in FIGS. 6, 7 and 8 is performed in a similar manner.
    [93] Assembly of the cutting tool assembly requires the use of an insert mounting key, as described above. This is because the assembly insert is usually very small and therefore difficult to manipulate. In addition, when fastening the cutting insert into the insert retaining portion, the torque must be applied to the cutting insert to forcibly move the fastening jaw radially backwards. This torque is usually greater than the torque that can normally be applied without the use of a mechanism. Similarly, disassembly of the cutting tool assembly, ie removal of the cutting insert from the cutting insert holder, requires the use of an insert removal key. In the following description and claims, the two kinds of keys are generically referred to as "insertion keys" because they have a similar structure. Where necessary, for clarity, reference is made to the specific type of key.
    [94] 12 shows an insert mounting key 70 for mounting a cutting insert with a through bore 66 on a cutting insert holder. The insert key 70 has a peripheral surface 71 and a cavity 76. The peripheral surface 71 extends from the rear portion 73 of the insert key to its front portion 75 and includes a lateral surface 72 and a front surface 74. The cavity 76 has an overall cylindrical inner sidewall 80 and a rear wall 82 and is open to the front surface 74 into a substantially circular chamfered hole 77. The cavity 76 also has a lateral surface 72 into the substantially rectangular hole 78 extending axially along the cavity 76 from the front face 74 where the circular hole 77 and the rectangular hole 78 meet. Is open). The hole 78 has an upper lip 84 and a lower lip 86. The insert key is also provided with an elongate pin 92 coaxial with the inner sidewall 80 and extending from the rear portion 73 of the insert key toward the front surface 74. The function of the hole 78 is to form a tangential positioning surface and entry zone for the radial protrusion 46 of the cutting insert. It should be noted that the same function may be achieved by an inner axially extending recess in the inner sidewall 80. However, in the preferred embodiment, the hole 78 is used because it is easy to manufacture and can easily enter all cutting inserts held in the insert key.
    [95] Assembly of the cutting tool assembly using the insert key 70 will now be described. The cutting insert 14 is positioned within the insert key for each cutting insert such that the radial protrusion 46 of the insert is positioned inside the hole 78 and the tangential adjacent surface 62 abuts the lower lip 86. It is loaded first. The insert key 70 has a pin 92 approximately aligned with the axis A of the insert retaining portion 18 and the rib 54 of the cutting insert faces the groove 40 of the fastening jaw 24. It is then aligned with the cutting insert holder 12. The insert key 70 is then axially pushed towards the cutting insert holder 12 until the leading cutting insert abuts the axially adjacent surface 38 of the cutting insert holder 12. The insert key 70 then rotates the cutting insert relative to the cutting insert holder 12 by the upper lip 84 of the insert key 70 contacting the rake surface 58 of the cutting insert 14. The cutting insert holder 12 is rotated with respect to the cutting insert holder 12 in the direction of arrow P as shown in FIG. 12 until the tangential adjacent surface 62 abuts the tangential adjacent surface 36. Presses the rib 54 of the cutting insert 14 below the fastening surface 42. In this position, the cutting insert is fastened in the insert retaining portion 18 by a radially inwardly directed force applied by the fastening jaw 24 carried on the cutting insert. The insert key 70 is then axially removed from the cutting tool assembly 10.
    [96] Figure 13 shows an insert removal key 70a for removing a cutting insert from an insert retaining portion of a cutting insert holder. The insert key shown in the figures can only hold one removed insert. However, it can be designed to hold multiple removed inserts. The insert removal key 70a is similar in configuration to the insert mounting key 70 except that a first transverse hole 79a is provided that is located behind the front surface 74. The first transverse hole 79a opens from the inner sidewall 80 into the side surface 72 and crosses from the rectangular hole 78 and extends on the side surface. The insert key 70a is also provided with a second transverse hole 81a opposite the first transverse hole 79a. By this configuration, two tooth portions 90a and 91a are formed adjacent to the two holes 79a and 81a. The insert key 70a is provided with two cross holes so that it can be used to disassemble both the left and right cutting inserts.
    [97] As described above, removal of the cutting insert 14 from the cutting insert holder 12 is performed in the reverse order of mounting the cutting insert. The function of the teeth 90a, 91a retains the cutting insert inside the cavity of the insert key 70a while axially removing it from the cutting insert holder 12 during removal of the cutting insert 14. will be. The teeth 90a are used for the right hand tool and the teeth 91a are used for the left hand tool.
    [98] 14-16 show an insert mounting key 500 capable of supporting multiple cutting inserts without axial through bores. The insert key 500 is similar to the insert key 70 except for some features related to the fact that the cutting insert does not have a through bore. The insert key 500 has a central location pin 507 extending from the bottom of the highway 76. The cross-sectional size of the pin 507 generally corresponds to the cross-sectional size of the overall cylindrical portion 44 of the cutting insert 14. An open end sleeve 510 made of elastic material, ie plastic, is slidably insertable into the cavity 76. The sleeve 510 has a generally cylindrical cavity 512 and a substantially rectangular hole 513 all extending axially along the entire length of the sleeve. The rectangular hole 513 coincides with the rectangular hole 78 in the lateral surface 72 of the insert key when the sleeve 510 is located in the cavity 76.
    [99] In this embodiment a plurality of five cutting inserts 14 are inserted into the cavity 512 and retained therein. The length of the sleeve 510 is selected to be able to support the required number of cutting inserts 14. The length of the cavity 76 is overall twice the length of the sleeve 510 so that the sleeve can slide backwards whenever a new cutting insert is mounted on the cutting insert holder.
    [100] A sleeve 510 with a plurality of cutting inserts 14 held therein is inserted into the cavity 76 in a slidable manner with a radial protrusion 46 of the cutting insert towards the hole 78. The method of using the insert key 500 to mount the cutting insert 14 in the insert retaining portion 18 of the cutting insert holder 12 is described above with respect to the use of the insert key 70. Similar to The main difference between the two keys is that the cutting insert 510 is inserted into the back of the insert key 500 when the cutting insert holder 12 is axially inserted into the cavity 76 of the insert key 500. Is moved backward by the same length as the sieve. The remaining cutting insert does not move relative to the insert key 500 due to the pin 507 which serves as a guide for the sleeve 510 and prevents backward movement.
    [101] 17-20 show another embodiment of an insert mounting key 600 capable of mounting therein a plurality of cutting inserts held in the same plane. The insert key 600 has a base plate 602 with one cutting insert 14 held in an insert retaining pocket 604, each of which is generally cylindrical. Base plate 602 is made of a hard, brittle and relatively flexible material such as plastic.
    [102] Each insert retention pocket 604 has an axial adjacent surface 608 having a peripheral surface 606 and a rim 610. Peripheral surface 606 has radially outwardly extending grooves 612 with stops 614 that are substantially tangential. Two retaining members 616, 618, each having transversely adjacent surfaces 620, 622, are shearedly connected to and extending upward from the rim 610 along a portion thereof. The shape and size of each of the axial and transverse adjacent surfaces 608, 620, 622 are designed according to the corresponding surface of the cutting insert to be retained in the insert retention pocket 604. There are two holes 615, 617 between the axial adjacent surface 608 and the peripheral surface 606. The size and shape of each hole is designed to pass through the free passage of the retaining member in the axial direction. Each insert retention pocket 604 merges with the top surface 624 of the base plate 602 via a chamfered portion 626 designed to allow the cutting insert holder 12 to be easily inserted into the insert retention pocket 604. do.
    [103] Insertion key 600 may have multiple insert retention pockets 604. In the figure four insert retaining pockets 604a, 604b, 604c, 604d are shown, each of which is used below to describe various stages of the assembly process. The insert retention pocket 604a shows the insert retention pocket prior to the retention of the cutting insert 14. Insert retaining pocket 604b shows insert 14 retained within insert retaining pocket and axially adjacent axially adjacent surface 608. The overall cylindrical portion 44 of the cutting insert is retained between retaining members 616, 618 with radial projections 46 of the cutting insert freely positioned within the groove 612. The cutting insert holder 12 is axially in the insert retention pocket 604c until the axially adjacent surface 64 of the cutting insert abuts the axially adjacent surface 38 of the cutting insert 12. Is inserted. During the axial downward movement of the cutting insert holder 12, the holder pushes the retaining members 616, 618 and cuts them out. The cutting insert holder 12 then rotates clockwise to bring the cutting insert into the final assembly position inside the cutting insert holder while rotation of the cutting insert is prevented using the stop 614. Insert retaining pocket 604d shows the insert retaining pocket after retaining members 616 and 618 have been cut.
    [104] 21 is a perspective view of an internal cutting tool 700 in accordance with the present invention. The cutting tool 700 is provided with a hole 702 in the front of the cutting insert holder 704 to be a passage of cooling fluid through the cutting insert holder. If desired, cooling fluid may be applied through the through bore 706 in the cutting insert 708.
    [105] Although the present invention has been described in some detail, it can be seen that various modifications and changes are possible within the spirit or scope of the invention as the following claims.
    权利要求:
    Claims (42)
    [1" claim-type="Currently amended] A cutting tool assembly comprising a cutting insert holder 12 and a cutting insert 14, the cutting insert holder comprising a body portion 16 and an insert holding portion 18, wherein the insert holding portion A cutting tool assembly having a generally cylindrical inner surface 32 of diameter D1 and longitudinal axis A,
    The insert retaining portion 18 includes an axially extending fastening jaw 24 having a fixing portion 22 connected to the body portion 16 and a radially facing fastening surface, and an axially extending fastening jaw 24. Is connected to a fixture 22 on one side along the axially extending connection 25 and is fixed on the other side along the axially extending free end 30 by an axially extending hole 27. And axially extending holes 27 are axially extending first positions of the fixing portion 22 adjacent the inner surface 32 on the opposite side by the free end 30 of the fastening jaw 24 on one side. Bounded by a set surface 36,
    The cutting insert 14 comprises an overall cylindrical portion 44 having an axially extending radial protrusion 46 and a longitudinal axis B connected thereto, the radial protrusion 46 being connected to the cylindrical portion 44. Having upper and lower surfaces 55, 62 and separated by side surface 57, the upper surface 55 and the side surface 57 meet at an edge that is at least part of the cutting edge 56, and the lower surface 62 constitutes a first positioning surface,
    The cutting insert 14 is located in an insert retaining portion 18 having an axially extending radial protrusion 46 protruding from the axially extending hole 27 and having a first positioning surface ( 62 is adjacent to the first positioning surface 36 of the insert retaining portion 19, the cutting insert 14 of the fastening jaw 24 on the overall cylindrical portion 44 of the cutting insert 14. The cutting tool assembly, characterized in that it is fastened in place using radial elastic force exerted by the fastening surface (42).
    [2" claim-type="Currently amended] The cutting insert (14) according to claim 1, wherein the cutting insert (14) is provided with an axially extending central position through bore (66) and the cutting insert holder (12) into the rear wall (45) of the insert retaining portion (18). Cutting tool assembly, characterized in that an open joint central position bore (43) is provided.
    [3" claim-type="Currently amended] The cutting tool assembly according to claim 1, wherein the cylindrical portion (44) is an axial extension that is larger than the axial extension of the radial protrusion (46).
    [4" claim-type="Currently amended] The cutting tool assembly according to claim 1, wherein the entire cylindrical portion (44) of the cutting insert (14) is provided with three axially extending ribs (50, 52, 54).
    [5" claim-type="Currently amended] 5. The radially outermost zone of claim 4 wherein two of said three axially extending ribs (50, 52) lie in a radial direction lying on a cylindrical contour of diameter (D2) with a longitudinal axis (B) as the axis. Cutting tool assembly, characterized in that it has a.
    [6" claim-type="Currently amended] 6. The cutting tool assembly of claim 5, wherein D2 is the same as D1.
    [7" claim-type="Currently amended] 5. The cutting tool assembly of claim 4, wherein one of the three axially extending ribs (54) has a radially outermost zone lying on a cylindrical contour of diameter (D3).
    [8" claim-type="Currently amended] 8. The cutting tool assembly of claim 7, wherein D3 is greater than D1.
    [9" claim-type="Currently amended] 8. The method of claim 7, wherein two of said three axially extending ribs (50, 52) have a radially outermost zone lying on a cylindrical contour of diameter (D2), wherein D3 is larger than D2. Cutting tool assembly.
    [10" claim-type="Currently amended] Cutting tool assembly according to claim 4, characterized in that the three axially extending ribs (50, 52, 54) are arranged at an angle of 120 ° from each other with respect to the axis (B).
    [11" claim-type="Currently amended] The cutting insert according to claim 1, wherein the cutting insert is fastened to a position having a fastening surface 42 of the fastening jaw 24 adjacent the axially extending ribs 54 of the overall cylindrical portion 44. Tool assembly.
    [12" claim-type="Currently amended] Cutting tool assembly according to claim 1, characterized in that the fastening jaw (24) is wider at the connection (25) than the free end (30) and tapered from the connection to the free end.
    [13" claim-type="Currently amended] 2. Cutting tool assembly according to claim 1, characterized in that the fastening jaw (24) is thicker at the connection (25) than at the free end (30).
    [14" claim-type="Currently amended] 2. The axially extending first positioning surface 36 of claim 1, wherein the axially extending first positioning surface 62 of the cutting insert 14 and the fixing portion 22 of the insert retaining portion 18. ) Is a planar cutting tool assembly.
    [15" claim-type="Currently amended] 2. The insert holding portion 18 of the cutting insert holder 12 further comprises a second axial positioning surface 38 which is generally axially adjacent and across the first positioning surface. , The cutting insert 14 has a second positioning surface 64 adjacent and across the first positioning surface 38, the second positioning surface 64 of the cutting insert being a cutting insert. Cutting tool assembly, characterized in that contact with the second positioning surface (38) of the holder (12).
    [16" claim-type="Currently amended] 2. The axially extending first positioning surface of the cutting insert according to claim 1 wherein the axially extending first positioning surface is generally in the form of a V-shaped protrusion 143 and the axially extending first positioning surface of the securing portion of the insert is complementary. Cutting tool assembly, characterized in that the form of a groove (135).
    [17" claim-type="Currently amended] 2. The axially extending first positioning surface 343 of the cutting insert is convex and the axially extending first positioning surface of the fixture of the insert retaining portion is a concave surface 335 of a complementary shape. Cutting tool assembly, characterized in that.
    [18" claim-type="Currently amended] The axially extending first positioning surface 243 of the cutting insert is concave and the axially extending first positioning surface of the fixture of the insert retaining portion is a convex surface 235 of a complementary shape. Cutting tool assembly, characterized in that.
    [19" claim-type="Currently amended] The cutting tool assembly according to claim 1, wherein the fastening jaw (24) is further provided with an axially extending groove (40) which engages with the fastening surface (42) of the fastening jaw.
    [20" claim-type="Currently amended] The cutting tool assembly of claim 1, wherein the cutting insert is generally symmetrical with respect to the plane of symmetry (M) and has two sets of cutting edges (456 ′, 456 ″) on both sides of the plane of symmetry.
    [21" claim-type="Currently amended] A cutting insert comprising an overall cylindrical portion 44 having a longitudinal axis B and an axially extending radial protrusion 46 connected thereto, the radial protrusions having upper and lower surfaces 55, 62 connected to the cylindrical portion. Separated by the lateral surface 57, the upper surface 55 and the lateral surface 57 at least partially meet at an edge constituting the cutting edge 56, and the lower surface 62 is the first positioning surface. Cutting insert, characterized in that the configuration.
    [22" claim-type="Currently amended] 22. The cutting insert according to claim 21, wherein the cutting insert (14) has an axially extending central position through bore (66).
    [23" claim-type="Currently amended] 23. The cutting insert according to claim 21 or 22, wherein the entire cylindrical portion of the cutting insert is provided with three axially extending ribs (50, 52, 54).
    [24" claim-type="Currently amended] 24. Two of the three axially extending ribs (50, 52) have a radially outermost zone lying on a cylindrical contour of diameter (D2) with a longitudinal axis (B) as the axis. Cutting insert, characterized in that.
    [25" claim-type="Currently amended] 24. The cutting insert according to claim 23, wherein one of the three axially extending ribs (54) has a radially outermost zone lying on a cylindrical contour of diameter (D3).
    [26" claim-type="Currently amended] The cutting insert of claim 25, wherein D3 is greater than D2.
    [27" claim-type="Currently amended] The cutting insert according to claim 23, wherein the three axially extending ribs (50, 52, 54) are arranged at an angle of 120 ° from each other with respect to the axis (B).
    [28" claim-type="Currently amended] A cutting insert according to claim 21, wherein the first positioning surface is flat.
    [29" claim-type="Currently amended] 22. The cutting insert according to claim 21, wherein the radial protrusion (46) has a second positioning surface (64) adjacent to and traversing the first positioning surface (62).
    [30" claim-type="Currently amended] 22. The cutting insert according to claim 21, wherein the axially extending first positioning surface of the cutting insert is generally in the form of a V-shaped protrusion (143).
    [31" claim-type="Currently amended] 22. The cutting insert according to claim 21, wherein the axially extending first positioning surface (343) of the cutting insert is convex.
    [32" claim-type="Currently amended] 22. The cutting insert according to claim 21, wherein the axially extending first positioning surface (243) of the cutting insert is concave.
    [33" claim-type="Currently amended] In the insert key for mounting the cutting insert on the cutting insert holder 12,
    A peripheral surface 71 extending from the rear portion 73 of the insert key to its front portion 75 and comprising a lateral surface 72 and a front surface 74,
    A substantially rectangular shape having a generally cylindrical inner sidewall 80, opening to the front surface 74 in a substantially circular hole 77 and extending axially along from the front surface 74 where the circular and square holes meet. Insert key comprising a cavity (76) opening into a lateral surface (72) in a hole.
    [34" claim-type="Currently amended] 34. The insert according to claim 33, further comprising an elongate pin 92 concentric with the cylindrical inner sidewall 80 and extending from the rear portion 73 of the insert key towards the front surface 74. Tall.
    [35" claim-type="Currently amended] 35. An open end sleeve 510 according to claim 33 or 34, which is made of an elastic material and slidably insertable into the cavity 76, is provided, the sleeve 510 along the overall cylindrical cavity 512 and the sleeve. An insert key having a substantially rectangular hole 513 extending therein and coinciding with the rectangular hole 78 in the lateral surface of the insert key when the sleeve is positioned in the cavity 76.
    [36" claim-type="Currently amended] In the insert key for removing the cutting insert from the cutting insert holder 12,
    A peripheral surface 71 extending from the rear portion 73 of the insert key to its front portion 75 and comprising a lateral surface 72 and a front surface 74,
    A substantially rectangular shape having a generally cylindrical inner sidewall 80 and opening to the front surface 74 in a substantially circular hole 77 and extending axially along it from the front surface 74 where the circular and square holes meet. A cavity 76 that opens into the side surface 72 in the hole 78,
    And a first transverse hole (79a) located on the rear of the front surface and extending from the inner sidewall to the lateral surface and transverse from the substantially rectangular hole.
    [37" claim-type="Currently amended] 37. The insert key of claim 36, further comprising a second transverse hole (81a) opposite the first transverse hole with respect to the rectangular hole (78).
    [38" claim-type="Currently amended] 38. An elongated pin 92 is further provided, which is concentric with the cylindrical inner sidewall 80 and extends from the rear portion 73 of the insert key towards the front surface 74. Insertion key.
    [39" claim-type="Currently amended] As an insert key for mounting the cutting insert 14 on the cutting insert holder 12,
    The cutting insert comprises an overall cylindrical portion 44 having a longitudinal axis B and an axially extending radial protrusion 46 connected thereto, the radial protrusions having upper and lower surfaces 55 and 62 connected to the cylindrical portion. And separated by the lateral surface 57, the upper surface 55 and the lateral surface 57 at least partially meet at an edge forming the cutting edge 56, and the lower surface 62 is the first positioning surface. In the insert key, which is adapted to constitute
    A base plate 602 having a plurality of insert retention pockets 604,
    Each insert retaining pocket includes a peripheral surface 606 and an axially adjacent surface 608 connected thereto, and two retaining members 616, 618 define the entire cylindrical portion 44 of the cutting insert 14. An insert key that is shearably connected to the base plate 602 that is detachably retained, and the cutting insert anti-rotation stop 614 is connected to the base plate 602.
    [40" claim-type="Currently amended] 40. The insert key of claim 39, wherein the cutting insert anti-rotation stop (614) is a tangential portion of the radially outwardly extending groove (612) in the base plate (602).
    [41" claim-type="Currently amended] 40. The insert retaining pocket 604 is provided with two holes 615, 617 positioned between the axially adjacent surface 608 and the peripheral surface 606, and the retaining members 616, 618, respectively. An insert key positioned above the holes 615 and 617, wherein the size and shape of each hole is adapted to allow the free passage of the retaining member to pass in the axial direction.
    [42" claim-type="Currently amended] 43. The insert key of claim 41 wherein the retaining member (616, 618) is shearably connected to the axially adjacent surface (608) by a rim (610).
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    同族专利:
    公开号 | 公开日
    WO2001010585A1|2001-02-15|
    DE60007751T2|2004-07-01|
    IL131260A|2003-07-31|
    JP2003506221A|2003-02-18|
    KR100591230B1|2006-06-19|
    US6695549B2|2004-02-24|
    AU6312400A|2001-03-05|
    EP1200220A1|2002-05-02|
    US20020057950A1|2002-05-16|
    EP1200220B1|2004-01-14|
    TW426563B|2001-03-21|
    JP4109450B2|2008-07-02|
    IL131260D0|2001-01-28|
    DE60007751D1|2004-02-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    1999-08-05|Priority to IL131260
    1999-08-05|Priority to IL13126099A
    2000-07-30|Application filed by 에란 마르쿠스 : 탈 샬모니, 이스카 엘티디.
    2002-03-15|Publication of KR20020020807A
    2006-06-19|Application granted
    2006-06-19|Publication of KR100591230B1
    优先权:
    申请号 | 申请日 | 专利标题
    IL131260|1999-08-05|
    IL13126099A|IL131260A|1999-08-05|1999-08-05|Cutting tool assembly and cutting insert|
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