JP4464953B2 - Cutting tool and manufacturing method thereof - Google Patents

Description

  The present invention relates to a cutting tool using a shank portion of a cutting tool with worn cutting edges and a method for manufacturing the cutting tool.

  For example, a cutting tool such as a drill or an end mill, which has a blade portion formed with a cutting edge for cutting a workpiece on the distal end side and a shank portion held by a tool holder on the proximal end side, has the cutting edge Every time the cutting performance deteriorates due to wear, the cutting edge (blade part) is polished to recover the initial cutting performance. It becomes possible and discarded.

  By the way, in order to improve cutting performance and wear resistance in recent years, expensive rare metals such as W, Co, and Mo are included, and there is a strong demand for utilizing them as long as possible.

  Thus, for example, Patent Document 1 discloses a technique for reusing a cutting tool that has no grinding allowance by forming it into a smaller cutting tool.

JP 2004-322241 A

  However, in the technique disclosed in Patent Document 1, it can be reused only as a cutting tool with a gradually reduced diameter, and in particular, it is necessary to greatly cut the shank portion that occupies most of the cutting tool, It is hard to say that sufficient reuse of cutting tools has been achieved.

  In view of the present situation as described above, the present invention provides a cutting tool that can be manufactured at a low cost and has performance equivalent to that of a new article by reusing a shank portion that occupies most of the cutting tool as it is, and a manufacturing method thereof. Is.

  The gist of the present invention will be described with reference to the accompanying drawings.

A cutting tool having a blade body 3 having a blade portion 1 formed with a cutting edge for cutting a workpiece on the distal end side, and having a shank portion 2 held by a tool holder on the proximal end side, The shank portion 2 is formed by cutting and removing a portion of the blade portion and the tip end side of the shank portion 2 from a cutting tool with a worn blade portion, and forming a small diameter portion 6 at the tip end . first end before Kihatai 3 relates to a cutting tool, wherein the benzalkonium be joined.

Further, in the cutting tool according to claim 1 Symbol placement, and the shank portion 2 and the blade 3 are those of the cutting tool, characterized in that it is joined by brazing.

The cutting tool according to claim 1 , wherein the blade body 3 is made of a cemented carbide material or a metal material that is equal to or higher in strength than the shank portion 2. The present invention relates to a cutting tool characterized in that

Moreover, it has the blade body 3 which comprises the blade part 1 in which the cutting edge which cuts a to-be-cut object is formed in the front end side, The manufacturing method of the cutting tool which has the shank part 2 hold | maintained at a tool holder on the base end side a is, the cut and removed a portion of the distal end of the blade portion and the shank portion 2 from the shank portion 2 of the cutting tool, followed by the-edge of the sheet Yanku unit 2 which the cutting portion has been removed, After joining the blade body 3 having the blade portion 1 with the cutting edge formed, a small diameter portion 6 is formed at the tip of the shank portion 2 to reuse the shank portion 2 to manufacture a cutting tool. The present invention relates to a method for manufacturing a cutting tool.

In the method for producing a cutting tool according to claim 4, in-edge of the sheet Yanku portion 2 in which the blade portion is removed, after joining the blade body 3 cutting edge is not formed, the blade 3 The present invention relates to a method for manufacturing a cutting tool, characterized in that a cutting edge is formed in the blade and the blade portion 1 is provided.

Moreover, in the manufacturing method of the cutting tool of any one of Claims 4 and 5 , as the said blade body 3, the cutting tool full length after this blade body 3 joining is more than the cutting tool full length before the said blade part removal, The present invention relates to a method for manufacturing a cutting tool, in which a blade body 3 having a length is employed.

Moreover, in the manufacturing method of the cutting tool of any one of Claims 4-6, the cutting tool from which the said blade part was removed, and the said blade body 3 are joined by brazing, The cutting tool characterized by the above-mentioned. It relates to a manufacturing method.

Further, in the method for manufacturing a cutting tool according to any one of claims 4 to 7 , the blade body 3 is made of a cemented carbide material or a metal material which is equal to or higher in strength than the shank portion 2. The present invention relates to a method for manufacturing a cutting tool, characterized in that one is employed.

  Since the present invention has been described above, a shank portion that occupies most of the cutting tool is reused as it is, and a cutting tool that can be manufactured at a low cost with performance equivalent to that of a new product and a manufacturing method thereof.

  An embodiment of the present invention which is considered to be suitable will be briefly described with reference to the drawings showing the operation of the present invention.

  The shank part 2 of the cutting tool that is originally discarded is bonded to the tip side of the shank part 2 of the cutting tool from which the blade part has been removed by joining the blade body 3 having the blade part 1 formed with the cutting edge. A new cutting tool can be manufactured by reuse as it is, and therefore a cutting tool capable of exhibiting cutting performance equivalent to that of a new product can be manufactured at low cost.

  Specific embodiments of the present invention will be described with reference to the drawings.

  This embodiment has a blade body 3 having a blade portion 1 formed with a cutting edge for cutting a workpiece on the distal end side, and a shank portion 2 held on a proximal end side by a tool holder. The manufacturing method according to claim 1, wherein at least the blade portion is removed from the cutting tool on which the cutting blade is worn, and then the cutting blade is formed on the tip side of the shank portion 2 of the cutting tool from which the cutting portion has been removed. The cutting tool is manufactured by reusing the shank portion 2 by joining the blade body 3 having the portion 1.

  In this embodiment, a new cutting tool is manufactured by reusing a cutting tool formed by removing a solid material made of one cemented carbide by grinding or the like. Specifically, A shank of a cutting tool having a blade portion 7 in which a chip discharge groove and a cutting edge are formed, a shank portion 2 machined to a predetermined diameter, and a tapered portion 4 that continuously connects the blade portion 7 and the shank portion 2. The part 2 is reused to produce a new cutting tool.

  Specifically, first, the cutting edge is worn away from the shank part 2 of the cutting tool (the cutting edge is worn away, and the entire cutting part 7, the entire taper part 4, and a part of the shank part 2). (FIG. 1 (a) → FIG. 1 (b)).

  Subsequently, the distal end surface of the shank portion 2 and the proximal end surface of the blade body 3 having a diameter larger than the shank diameter are joined by brazing, specifically, silver brazing using silver brazing (FIG. 1B). → Fig. 1 (c)). In addition, you may employ | adopt not only silver brazing but another joining method.

  Therefore, since the shank part 2 and the blade body 3 having the largest diameter of the cutting tool can be joined and the joining area becomes large, the joining and integration of the shank part 2 and the blade body 3 can be performed satisfactorily.

  As the blade body 3, a cemented carbide material having the same or higher strength than the shank portion 2 is employed. Therefore, for example, when a high-strength cemented carbide material is employed, a high-strength cemented carbide that is more expensive than the shank portion 2 is formed in order to form a cutting edge that can exhibit better cutting performance and durability. Even if the manufacturing material is adopted as the blade body 3, the material cost can be reduced by the length of the shank portion 2. The blade body 3 may be made of the same material as the shank portion 2.

  Subsequently, desired processing is performed on the blade body 3 and the shank portion 2 (FIG. 1 (c) → FIG. 1 (d)). Specifically, in the present embodiment, the blade body 3 is simply processed into a rod shape in a state before being joined to the shank portion 2, and a chip discharge groove and a cutting blade are not formed. The entire length of the cutting tool after joining the blade body 3 is set to a length that is equal to or longer than the entire length of the cutting tool before the blade portion 7 is removed.

  After this blade body 3 is joined to the shank portion 2, the length is set to a length such that the overall length of the tool before removal of the blade portion 7 and the overall length of the tool after joining the blade body 3 are substantially the same, and a cutting blade or the like is formed. . At this time, if necessary, a tapered portion 5 is also formed between a tip end portion where the cutting edge or the like of the blade body 3 is formed and a proximal end portion of the blade body 3 connected to the shank portion 2.

  Further, at the tip of the shank portion 2 to be joined to the base end of the blade body 3, the diameter is slightly smaller than the base end side of the shank portion 2 having a predetermined length a and consisting of the tapered portion 6a and the same diameter portion 6b. Part 6 is formed. The same diameter portion 6 b of the small diameter portion 6 is set to have substantially the same diameter as the same diameter portion 8 formed at the proximal end portion of the blade body 3. In the present embodiment, the blade 3, the shank portion 2, and the outer periphery of the joint portion between them are ground and removed simultaneously to form the small diameter portion 6 of the shank portion 2 and the same diameter portion 8 of the blade body 3.

  Note that the length of the blade body 3 may be set in advance so that the total length of the tool before removing the blade portion 7 and the total length of the tool after joining the blade body 3 are substantially the same before joining.

  Accordingly, a cutting tool having the same size as that before the blade 7 is removed can be manufactured, and the shank portion 2 can be reused substantially as it is without being subjected to removal processing such as grinding.

  By repeating the above steps, the shank part 2 can be reused many times, the waste of material can be suppressed, the cost of the cutting tool can be reduced, and the processing cost by the cutting tool can be reduced. .

  Further, when the cutting edge of the blade 3 brazed to the shank portion 2 is worn and cannot be polished, the blade 3 is removed and a new blade 3 'is brazed. In this embodiment, in order to satisfactorily integrate the shank portion 2 and the new blade body 3 ′, the tip side of the shank portion 2 is connected to the shank portion 2 and the blade body 3 as shown in FIG. It cut | disconnects so that the small diameter part 6 may be removed. Therefore, in this embodiment, the shank portion 2 is shortened each time it is reused. However, as the shank portion 2 is repeatedly reused so that a cutting tool having the same length can be manufactured, the blade body 3, 3 ', 3 "... are lengthened.

  In particular, in this embodiment, the small-diameter portion 6 is set to a predetermined length a. Therefore, for example, when a large number of cutting tools are automatically selected for each length (shank length) of the shank portion 2, this small-diameter portion. 6 becomes a mark so that the shank length of each cutting tool can be easily identified, and from the shank length measurement and selection to the blade part removal operation can be performed automatically, and the machining efficiency is greatly improved.

  In addition, although the present Example explained in full detail about the case where the shank part 2 of the cutting tool formed by processing one solid material and forming the blade part 7 and the shank part 2, the blade part and the shank part are used. The same applies when the shank portion of the cutting tool in which the two are joined and integrated by brazing or the like is reused. The same applies to the case where the shank portion of the cutting tool that directly connects the blade portion 7 and the shank portion 2 without forming the tapered portion 5 is reused.

  Since the present embodiment is configured as described above, the blade portion of the cutting tool whose blade portion is worn is removed, and a cutting blade is formed on the tip side of the shank portion 2 of the cutting tool from which the blade portion has been removed. By joining the blade body 3 having the blade portion 1, the shank portion of the cutting tool that is originally discarded can be reused almost as it is, and a new cutting tool can be manufactured. Cutting tools can be manufactured at low cost.

  Therefore, in this embodiment, the shank portion that occupies most of the cutting tool can be reused as it is, and a cutting tool having performance equivalent to that of a new product can be manufactured at low cost.

It is a schematic explanatory drawing of a present Example. It is a schematic explanatory drawing of a present Example.

1 Blade part 2 Shank part 3 Blade body 6 Small diameter part

Claims (8)

A cutting tool having a blade body having a blade portion formed with a cutting blade for cutting a workpiece on the distal end side, and having a shank portion held by a tool holder on a proximal end side, wherein the shank portion is , which blade portion small diameter portion is formed on the distal end side of the part were cut off the tip of the blade portion and the shank portion from the cutting tool wear, before-edge of the shank portion Kihatai cutting tools but characterized and Turkey have been joined. A cutting tool in the cutting tool according to claim 1 Symbol placement, said shank portion and said blade body, characterized in that it is joined by brazing. 3. The cutting tool according to claim 1 , wherein the blade body is made of a cemented carbide material or a metal material that is equal to or higher in strength than the shank portion. Cutting tool characterized by Having a blade comprising a blade portion which cutting edge is formed for cutting the object to be cut on the distal end side, a method for producing a cutting tool having a shank portion to be held by the tool holder on the base end side, wherein some from the shank portion of the cutting tool on the front end side of the blade portion and the shank portion and the cut off, followed by the-edge of the sheet Yanku section the blade portions have been removed, cutting part cutting edge is formed A cutting tool manufacturing method comprising manufacturing a cutting tool by reusing the shank portion by forming a small-diameter portion at the tip of the shank portion after joining the blade body comprising Forming in the manufacturing method of the cutting tool according to claim 4, wherein, before end of the sheet Yanku portion to which the blade portion is removed, after joining the blade to the cutting edge is not formed, the cutting edge on this blade A cutting tool manufacturing method comprising providing a blade portion. In the manufacturing method of the cutting tool of any one of Claims 4 and 5 , as said blade body, the cutting tool full length after this blade body joining is the length which becomes more than the cutting tool full length before the said blade part removal. The manufacturing method of the cutting tool characterized by the above-mentioned. The manufacturing method of the cutting tool of any one of Claims 4-6 WHEREIN: The cutting tool from which the said blade part was removed, and the said blade body are joined by brazing. In the manufacturing method of the cutting tool of any one of Claims 4-7, what consists of a cemented carbide material or metal material equivalent or high intensity | strength compared with the said shank part as the said blade body is employ | adopted. A method of manufacturing a cutting tool, characterized by comprising:

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