JPS6010843B2 - Throwaway tip honing shape and honing method - Google Patents
Throwaway tip honing shape and honing methodInfo
- Publication number
- JPS6010843B2 JPS6010843B2 JP364279A JP364279A JPS6010843B2 JP S6010843 B2 JPS6010843 B2 JP S6010843B2 JP 364279 A JP364279 A JP 364279A JP 364279 A JP364279 A JP 364279A JP S6010843 B2 JPS6010843 B2 JP S6010843B2
- Authority
- JP
- Japan
- Prior art keywords
- honing
- tip
- throw
- rake face
- cutting edge
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired
Links
Landscapes
- Finish Polishing, Edge Sharpening, And Grinding By Specific Grinding Devices (AREA)
- Cutting Tools, Boring Holders, And Turrets (AREA)
Description
【発明の詳細な説明】
本発明は鋼あるいは鋳物等の被加工物を切削するための
スローアゥェィチップ、特に超硬合金あるいは表面被覆
超硬合金あるいはサーメット等からなるスローアウェィ
チツプのホーニング形状及びホーニング方法に関するも
のである。DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the honing of indexable tips for cutting workpieces such as steel or castings, particularly indexable tips made of cemented carbide, surface-coated cemented carbide, cermet, etc. It concerns the shape and honing method.
籍硬合金あるいはサーメツト等からなるスロ−アゥェィ
チッブは硬度が高く、高速切削に耐え得ることなどの利
点を有する反面、もろいために切刃が欠損あるいはチツ
ピングを起こし易い。Throw-away tips made of hard metals, cermets, etc. have the advantage of being highly hard and capable of withstanding high-speed cutting, but are brittle and are prone to breakage or chipping of the cutting edge.
そのためこの種のスローアウヱィチップには切刃強度を
向上させ、耐チッピング性及び耐欠損性を向上させるた
めに切刃に一定量のホーニング(面取り)を施すことが
行なわれている。このホーニング量はスローアウェイチ
ップの切削性能を直接左右するのであって、ホーニング
量が大きい場合は切刃の強度が向上するものの、切刃の
摩耗量が増大し、逆にホーニング量が小さい場合は切刃
の摩耗量が少なくなるものの、切刃の強度が低下して欠
損を生じ易くなる。ところで従釆、スローアウェィチッ
プのホーニング方法として、振動式バレル機、遠D式バ
レル機等を用い、研磨材の入った容器にスローアウェィ
チップを入れ湿式で振動または回転運動を与えて切刃を
アール状に研磨する丸ホ−ニングや、切刃稜をダイヤモ
ンド砥石により面取り状に研削するチャンフアホーニン
グ等の方法が知られている。Therefore, in order to improve cutting edge strength, chipping resistance, and chipping resistance of this type of throw-away insert, a certain amount of honing (chamfering) is performed on the cutting edge. The amount of honing directly affects the cutting performance of the indexable insert. If the amount of honing is large, the strength of the cutting edge will improve, but if the amount of honing is small, the amount of wear on the cutting edge will increase. Although the amount of wear on the cutting edge is reduced, the strength of the cutting edge is reduced and chipping is more likely to occur. By the way, as a method for honing indexable tips, use a vibrating barrel machine, a far-D type barrel machine, etc., and place the indexable tip in a container containing an abrasive and apply vibration or rotational motion in a wet process. Methods such as round honing, in which the blade is ground into a rounded shape, and chamfer honing, in which the edge of the cutting edge is ground into a chamfered shape using a diamond grindstone, are known.
しかしながら、これらのホーニング方法によって得られ
るホーニング形状は第1図に示すようにノーズ部Rのホ
ーニング幅W,が切刃稜Tのホーニング幅W2とほぼ同
じになってしまって好ましくなく、また丸ホーニングで
は第2図に示すようにすくい面のホーニング幅Lとにげ
面のホーニング幅L2とが同じになり、切れ味が悪く、
耐摩耗性が劣るという問題があり、さらにチャンフアホ
ーニングでは第3図に示すようにすくい面の幅L3とに
げ面のホーニング幅Lとを任意設定することができる反
面、エッジ部Eが生じ、当該エッジ部Eが衝撃によりチ
ッピングを生じ易く、また研削加工によってホーニング
を行なうものであるため生産性が悪く、加工コストが高
くなるという問題があった。本発明は上記の如き問題点
を解消するために、左程大きな負荷の加わらない中仕上
切削から仕上切削の領域におけるホーニング形状と切削
性能との関係を研究した結果、■ スローアウェイチッ
プのノーズ部の先端から切刃稜に到る部分のホーニング
幅を連続的に広くすることにより、中仕上切削から仕上
切削の領域においては切刃の強度の低下を招来すること
な〈耐摩耗性の向上を図ることができる、■ 切刃強度
はすくい面のホーニング幅とにげ面のホーニング幅との
積と密接な関係があり、当該積が同じであればすくい面
のホーニング幅を大きくすることにより切刃強度を向上
させることができる、■ 切刃の耐摩耗性はにげ面のホ
ーニング量と密接な関係にあり、すくい面のホーニング
幅とにげ面のホーニング幅との積が等しい場合、にげ面
のホーニング幅がすくい面のホーニング幅より小さいホ
ーニング形状の方が耐摩耗性が優れる、との知見を得た
のである。However, as shown in Fig. 1, the honing shape obtained by these honing methods is undesirable because the honing width W of the nose portion R is almost the same as the honing width W2 of the cutting edge T. In this case, as shown in Fig. 2, the honing width L of the rake face and the honing width L2 of the barbed face are the same, resulting in poor sharpness.
There is a problem of poor wear resistance, and in addition, although chamfer honing allows the width L3 of the rake face and the honing width L of the barbed face to be set arbitrarily as shown in Fig. 3, an edge portion E occurs. However, there were problems in that the edge portion E was likely to chip due to impact, and since honing was performed by grinding, productivity was poor and processing costs were high. In order to solve the above-mentioned problems, the present invention has been developed by researching the relationship between the honing shape and cutting performance in the range from semi-finishing cutting to finishing cutting where large loads are not applied. By continuously widening the honing width from the tip of the cutting edge to the edge of the cutting edge, it is possible to improve wear resistance without reducing the strength of the cutting edge in the range from semi-finishing to finishing cutting. ■ Cutting edge strength is closely related to the product of the honing width of the rake face and the honing width of the barbed face, and if the products are the same, the cutting edge strength can be improved by increasing the honing width of the rake face. The wear resistance of the cutting edge is closely related to the amount of honing of the rake surface, and when the product of the honing width of the rake face and the honing width of the rake surface is equal, They found that a honed shape in which the honing width of the beveled face is smaller than the honing width of the rake face has better wear resistance.
その根拠となる一実験例を示せば以下の通りである。実
験例
1 実験条件
角材の断続切削
被削材;SNCM8(HB230)
スローアウェィチップ;正方形チップ、にげ角oo 、
厚さ4.8側、ノー
ズ部半径0.8側
切削速度;10仇吻/min.
切り込み;3柳
切削時間;3min.
ロ 実験内容
すくい面のホーニング幅aとにげ面のホーニング幅bと
をこれらの積(a×b)が一定となる範囲で適宜変え、
送り量に対する欠損領域の変化および切削時間に対する
にげ面の摩耗量を調べた。An example of an experiment that serves as the basis for this is as follows. Experimental example 1 Experimental conditions Intermittent cutting of square material Work material: SNCM8 (HB230) Throwaway tip: Square tip, corner angle oo,
Thickness 4.8 side, nose radius 0.8 side cutting speed: 10 mm/min. Depth of cut: 3 willow cutting time: 3min. (b) Experimental details The honing width a of the rake face and the honing width b of the barbed face were changed as appropriate within the range where their product (a x b) was constant.
Changes in the defect area with respect to the feed rate and the amount of wear on the exposed surface with respect to the cutting time were investigated.
m 実験結果
送り量に対する欠損領域の変化は第4図イに示す通り、
(a<b)、(a=b)、(a>b)の順に高送りして
も切刃が欠損しにくくなる。m Experimental results The change in the defective area with respect to the feed amount is as shown in Figure 4 A.
Even if the feed rate is increased in the order of (a<b), (a=b), and (a>b), the cutting edge becomes less likely to break.
また、切削時間に対するにげ面の摩耗量は第4図口に示
す通り、(a>b)、(a=b)、(a′くb)の順に
少なくなる。この実験結果からす〈し、面のホーニング
幅aがにげ面のホーニング幅bよりも大きいホーニング
形状が好ましいことが判る。Further, as shown in the opening of FIG. 4, the amount of wear on the exposed surface with respect to the cutting time decreases in the order of (a>b), (a=b), and (a' - b). From the results of this experiment, it can be seen that a honed shape in which the honing width a of the surface is larger than the honing width b of the barbed surface is preferable.
他方、本出願人は先に昭和50年特許願第28486号
にて切削に有利なホーニング形状を能率的に施すことの
できるホーニング方法を提案したが、その方法はスロー
アウェィチツプを研磨材の入った溶液中でそのすくい面
と垂直な方向へ高速往復運動をさせるというものである
。On the other hand, the present applicant previously proposed in Patent Application No. 28486 filed in 1975 a honing method that can efficiently form a honed shape that is advantageous for cutting. This involves high-speed reciprocating motion in a direction perpendicular to the rake face within the solution.
しかしながら、このホーニング方法によってはノーズ部
のホーニング幅と切刃稜のホーニング幅とがほぼ等しく
なってしまい、ノーズ部先端から切刃稜に到るまでの間
のホ−ニング幅を連続的に漸次広くすることができず、
この点に改良の余地がある。本発明は上記に知見に基づ
いてなされたもので、すくい面のホーニング幅がにげ面
のホーニング幅よりも広く、かつノーズ部のホーニング
幅がその先端から切刃穣側にかけて漸次広くなり、さら
に当該各ホーニング部がすくい面とにげ面とに滑らかに
連続する曲面であることを特徴とし、またスローアウェ
ィチツブを研磨材の入った液体中でそのすくい面に垂直
な方向へ高速往復運動させるホーニング方法において、
ノーズ部に対する研磨材の流動作用、衝撃を抑制するた
めの障害物をノーズ部のすくい面側に配置したことを特
徴とするものである。However, depending on this honing method, the honing width of the nose portion and the honing width of the cutting edge edge become almost equal, and the honing width from the tip of the nose portion to the cutting edge edge is continuously and gradually adjusted. Unable to widen
There is room for improvement in this respect. The present invention was made based on the above knowledge, and the honing width of the rake face is wider than the honing width of the barbed face, and the honing width of the nose part gradually becomes wider from the tip to the cutting edge side. Each honed part is characterized by a curved surface that smoothly continues with the rake face and the rake face, and the throw-away tip is reciprocated at high speed in a direction perpendicular to the rake face in a liquid containing an abrasive. In the honing method that involves exercise,
This is characterized in that an obstacle is placed on the rake surface side of the nose portion to suppress the flow action and impact of the abrasive material on the nose portion.
以下本発明の実施例を図面に参照して説明する。Embodiments of the present invention will be described below with reference to the drawings.
まずホーニング方法について説明する。First, the honing method will be explained.
第5図および第6図はスローアウェィチップ1を保持榛
2に取り付けた状態を示すもので、保持棒2の下端部に
ナット3が螺装され、その下側には障害物としてのノー
ズ部保護板4及びスベーサ5が鉄装されており、さらに
該スべ−サ5の下側にスローアウェィチップーが舷装さ
れ、そしてこのスローアゥェィチップーの下側にスベー
サ5及びノーズ部保護板4が順次鼓装されるとともにナ
ット3が螺装されており、斯くしてスローアウエイチツ
プ1は各ナット3を締め付けることにより各スベーサ5
で挟まれた状態で保持棒2に固定されている。ここで前
記スローアウェィチップーはすくい面laが正方形の直
方体をなし、したがってスローアウェィチップ1には8
つのノーズ部Rが形成されており、他方前記ノーズ部保
護板4は円板部4aから幅の狭い4本の腕片4bが十字
状に突出してなるものであり、そしてこのノーズ部保護
板4はその腕片4bがすくい面laの対角線と平行とな
るように、すなわちすくい面laに平行でかつ先端部が
ノーズ部Rに対応する箇所に位置するように保持棒2に
取り付けられている。一方、所定の容器6内に研磨材の
入った液体Sが入っており、そして前言己スローアウェ
ィチツプーは保持榛2に前述したように取り付けられた
ままの状態で液体S中に入れられ、保持棒2を上下動す
ることによりそのすくい面laに垂直な方向へ高速で往
復運動される。5 and 6 show the state in which the indexable tip 1 is attached to the holding rod 2. A nut 3 is screwed onto the lower end of the holding rod 2, and a nose as an obstacle is attached to the lower end of the holding rod 2. The part protection plate 4 and the base plate 5 are fitted with iron, and a throw-away tip is mounted on the underside of the base plate 5, and the base plate 5 and the base plate 5 are mounted on the bottom side of the throw-away tip. The nose protection plates 4 are sequentially installed and the nuts 3 are screwed on.Thus, by tightening the nuts 3, the throw-away tip 1 is attached to each base plate 5.
It is fixed to the holding rod 2 while being sandwiched between the two. Here, the indexable tip 1 has a rectangular parallelepiped shape with a square rake surface la, so the indexable tip 1 has 8
On the other hand, the nose protection plate 4 has four narrow arm pieces 4b protruding from a disc part 4a in a cross shape. is attached to the holding rod 2 so that the arm piece 4b is parallel to the diagonal of the rake surface la, that is, parallel to the rake surface la, and the tip is located at a location corresponding to the nose portion R. On the other hand, a liquid S containing an abrasive material is contained in a predetermined container 6, and the throw-away chip is placed in the liquid S while being attached to the holding bar 2 as described above. By moving the holding rod 2 up and down, it is reciprocated at high speed in a direction perpendicular to its rake surface la.
ここで前記液体Sは研磨材として比較的細粒の天然研磨
石と溶融アルミナ等からなる研磨材コンパウンドを水に
溶いたものが好ましく、またスローアウェイチツプ1を
往復運動させる振動数は1000〜10000サイクル
/分であることが好ましい。しかして上記のようにスロ
ーアウェイチツプlをそのすくい面laに対し垂直な方
向へ高速往復運動させた場合、その切刃稜Tには研磨材
がすくい面la側から直接作用し、その結果当該切刃綾
Tにはホーニング幅がすくい面la側で広く、にげ面l
b側で狭い形状のホーニングが施される。Here, the liquid S is preferably an abrasive compound made of a relatively fine-grained natural abrasive stone and fused alumina dissolved in water, and the frequency at which the indexable tip 1 is reciprocated is 1000 to 10000. Preferably cycles/minute. However, when the indexable tip l is reciprocated at high speed in the direction perpendicular to the rake surface la as described above, the abrasive material acts directly on the cutting edge T from the rake surface la side, resulting in the The cutting edge Aya T has a wide honing width on the rake surface la side, and a narrow honing width on the rake surface la side.
A narrow honing is performed on the b side.
他方、ノーズ部Rに対しては前記腕片4bによって研磨
材の作用が抑制され、しかも研磨材の作用は流動状態に
おける作用であり、したがってノーズ部Rの先端に施さ
れるホーニング幅は狭く、ここから前記切刃稜Tに到る
部分においてホーニング幅が広くされる。なお、上記実
施例では1個のスローアウェィチツプ1をホーニングす
る場合について説明したが、これはあくまでも原理的な
ものであって、多くのスローアウェィチップ1を短時間
で安価に処理するためには、第8図に示すように保持棒
2に多数のスローアウェイチツプ1を上記実施例におけ
る取付態様と同様に取り付け、この状態で研磨材の入っ
た液体S中で高速往復運動させればよい。つぎに本発明
に係るホーニング形状について説明する。第9図乃至第
11図に示すスローアゥェィチップ10は前述したよう
な本発明に係るホーニング方法によって処理されてホー
ニングが施されたものであって、そのホーニング形状は
第9図に示すようにノーズ部Rの先端においてホーニン
グ幅が最も狭く、ここから切刃稜Tに到る間において、
ホーニング幅が漸次広くなる形状である。そして、ノー
ズ部Rと切刃稜Tとの両者におけるホーニング部は第1
0図および第11図に示すように、すくい面10a側で
曲率半径r,が大きく、にげ面10b側程曲率半径r2
,r3が小さく(r.,r2,r3は第1 1図にのみ
示す)、かつ各面1 0a,10bに惰かに連続する曲
面をなしている。また、ノーズ部Rにおいてそのすくい
面10a側のホーニング幅Wbはにげ面10b側のホー
ニング幅Wb′よりも広く設定されており、さらに切刃
稜Tにおいてもそのすくい面10a側のホーニング幅W
aがにげ面10b側のホーニング幅Wa′よりも広く設
定されている。つぎに、本発明に係るホーニング形状を
付与したスローアゥェィチップの切削性能を確認するた
めに行なった試験例を、従来のホーニング形状を付与し
たスローアゥェィチップと比較して示す。On the other hand, the action of the abrasive on the nose portion R is suppressed by the arm piece 4b, and the action of the abrasive is in a fluid state, so the honing width applied to the tip of the nose portion R is narrow. The honing width is widened from here to the cutting edge T. In the above embodiment, the case where one throw-away chip 1 is honed has been explained, but this is just a principle, and is intended to process a large number of throw-away chips 1 in a short time and at low cost. In this case, as shown in FIG. 8, a large number of indexable chips 1 are attached to the holding rod 2 in the same manner as in the above embodiment, and in this state, they are made to reciprocate at high speed in a liquid S containing an abrasive. good. Next, the honing shape according to the present invention will be explained. The throw-away tip 10 shown in FIGS. 9 to 11 has been processed and honed by the honing method according to the present invention as described above, and the honed shape is as shown in FIG. The honing width is the narrowest at the tip of the nose portion R, and from here to the cutting edge T,
It has a shape in which the honing width gradually increases. The honing portion of both the nose portion R and the cutting edge T is the first honing portion.
As shown in FIG. 0 and FIG. 11, the radius of curvature r is larger on the side of the rake face 10a, and the radius of curvature r2 is larger on the side of the rake face 10b.
. Further, the honing width Wb on the rake face 10a side of the nose portion R is set wider than the honing width Wb' on the rake face 10b side, and furthermore, the honing width Wb of the cutting edge T on the rake face 10a side
a is set wider than the honing width Wa' on the side of the exposed surface 10b. Next, a test example conducted to confirm the cutting performance of the indexable tip provided with a honed shape according to the present invention will be shown in comparison with a conventional indexable tip provided with a honed shape.
試験例1 切削条件
角材の断続切削
被削材;SNCM8(HB230)(欠損率試験)SN
CM8(HB250)(耐摩耗性試験)
スローアウェィチツプ;正方形チップ、にげ角oo、厚
さ48側、ノーズ
部半径0.8側
切削速度:60h/min(欠損率試験)10血/mi
n(耐摩耗性試験)
切り込み;2側(欠損率試験)
3柳(耐摩耗性試験)
送 り;0.375肌/rev.(欠損率試験)0.
35柳/rev.(耐摩耗性試験)0 試験内容
上記スローァウェィチップにつき下記第1表の通りのホ
ーニングを施し、第1表のNo.1〜4について各20
コーナの繰り返し試験を行ない、欠損率((欠損コーナ
数/テストコーナ数)×100)及び切削時間とにげ面
摩耗との関係について調べた。Test example 1 Cutting conditions: Intermittent cutting of square material; SNCM8 (HB230) (defect rate test) SN
CM8 (HB250) (wear resistance test) Throw-away chip; square chip, angle of cut oo, thickness 48 side, nose radius 0.8 side Cutting speed: 60 h/min (breakage rate test) 10 blood/mi
n (wear resistance test) Cut: 2nd side (missing rate test) 3 willow (wear resistance test) Feed: 0.375 skin/rev. (missing rate test) 0.
35 Yanagi/rev. (Abrasion Resistance Test) 0 Test Contents The above throwaway tip was honed as shown in Table 1 below. 20 each for 1 to 4
A repeated corner test was conducted to investigate the relationship between the chipping rate ((number of chipped corners/number of test corners) x 100), cutting time, and wear on the sunken surface.
第1表 m 試験結果 ■ 欠損率は第2表に示す通りとなった。Table 1 m test results ■ The missing rate was as shown in Table 2.
すなわち、バレル法(丸ホーニング)によるホーニング
形状が付与されたスローアウェィチップの欠損率が最も
低く〈、以下本発明に係るホーニング形状が付与された
スローアウェィチップ、チャンフア法によるホーニング
形状が付与されたスローアウヱイチツプの順に欠損率が
高くなった。第2表■ 切削時間とにげ面摩耗との関係
は第12図に示す通りとなった。In other words, the indexable insert that has been given a honed shape by the barrel method (round honing) has the lowest chipping rate. The defect rate increased in the order of slow-a-way chips. Table 2 ■ The relationship between cutting time and wear on the exposed surface is as shown in Figure 12.
すなわち、.切削時間が長くなるに従って摩耗量が増加
するが、その増加度合は本発明に係るホーニング形状を
付与したスローアウェィチツプは最も低くく、以下チヤ
ンフア法によるホーニング形状を付与したスローアウェ
イチツプ、バレル法(丸ホーニング)によるホーニング
形状を付与したスローアウェィチツプの順に高くなった
。W評価上記の結果から明らかなように、本発明に係る
ホーニング形状を付与したスローアウェィチツプは鋤性
が低下することなく、耐摩耗性が向上し、総じて切削性
能が良い。In other words,. As the cutting time increases, the amount of wear increases, but the degree of increase is the lowest for the indexable tip with a honed shape according to the present invention, and below, the indexable tip with a honed shape by the chamfer method and the barrel method Throw-away chips with a honed shape (round honing) were the most expensive. W Evaluation As is clear from the above results, the indexable tip provided with the honed shape according to the present invention has improved wear resistance without deterioration of plowability, and has good overall cutting performance.
以上詳細に説明したように本発明に係るスローアウェイ
チツプのホーニング形状はすくい面のホーニング幅がに
げ面のホーニング幅よりも広く、かつノーズ部のホ−ニ
ング幅がその先端から切刃綾側にかけて漸次広くなり、
さらに各ホーニング部がすくい面とにげ面とに滑らかに
連続する曲面をなすものであるから、切刃の靭性のみな
らず耐摩耗性が向上し、中仕上げ切削から仕上げ切削の
加工領域において、特に切削工具の耐摩耗性が要求され
る切削あるいは硬い被削材の切削、さらには切刃の耐塑
性変形性が要求される切削を行なう際に極めて優れた切
削性能を呈するスローアウェィチップを得ることができ
る。As explained in detail above, the honing shape of the indexable insert according to the present invention is such that the honing width of the rake face is wider than the honing width of the barbed face, and the honing width of the nose part is from the tip to the cutting edge side. It gradually becomes wider,
Furthermore, since each honed part forms a curved surface that smoothly continues with the rake face and the ridged face, not only the toughness of the cutting edge but also the wear resistance is improved, and in the machining range from semi-finishing to finishing cutting. Throw-away inserts offer extremely excellent cutting performance, especially when cutting tools that require wear resistance, cutting hard work materials, and cutting that requires plastic deformation resistance of cutting edges. Obtainable.
また、本発明に係るスローアウェィチツプのホーニング
方法によれば、研磨材の入った液体中でスローアゥェイ
チップを高速往復運動せせるにあたって、ノーズ部に対
する研磨材の流動作用あるいは衝突を抑制する障害物を
設けてスローアゥェィチップを高速往復運動させるから
、上述したようなホーニング形状を能率的かつ安価にス
ローアゥェィチップに付与することができる。Further, according to the method for honing an indexable tip according to the present invention, when the indexable tip is caused to reciprocate at high speed in a liquid containing an abrasive, it is possible to suppress the flow action or collision of the abrasive with the nose portion. Since the obstacle is provided to cause the indexable tip to reciprocate at high speed, the honing shape described above can be efficiently and inexpensively imparted to the indexable tip.
第1図は従来のホーニング形状を示す平面図、第2図は
第1図のロー0線に沿う断面図、第3図は従釆の他のホ
ーニング形状を示すもので第2図と同様な断面図、第4
図イはすくい面のホーニング幅とにげ面のホーニング幅
との積を一定にし、かつ各ホーニング幅を変えた場合の
切刃の欠損に関する実験結果を示す線図、第4図口はそ
の耐摩耗性に関する実験結果を示す綾図、第5図はスロ
ーアウヱィチツプの保持榛への取付け状態を示す側面図
、第6図は第5図のW−の線失視断面図、第7図は本発
明のホーニング方法を原理的に示す断面図、第8図は多
数のスローアゥェィチップを保持棒へ取付けた状態を示
す側面図、第9図は本発明に係るホーニング形状の一例
を示す平面図、第10図は第9図の×−X線に沿う断面
図、第11図は第9図の紅一紅線に沿う拡大断面図、第
12図は耐摩耗性に関する試験結果を示す線図である。
1,10……スローアウエイチツプ、la,10a・・
・・・・すくい面、lb,10b……にげ面、R・・・
・・・ノーズ部、S・・・・・・研磨材の入った液体、
T・・・・・・切刃稜、Wa・・・・・・(切刃稜にお
ける)すくい面のホーニング幅、Wを……(切刃稜にお
ける)にげ面のホーニング幅、Wb……(ノーズ部にお
ける)すくい面のホーニング幅、Wb′……(ノーズ部
における)にげ面のホーニング幅。第1図
縦2図
鰭3劉
節4図
節5図
鰭6髄
節7図
節8図
縦9図
翁土−0図
敬11図
節12図Fig. 1 is a plan view showing a conventional honing shape, Fig. 2 is a sectional view taken along the row 0 line in Fig. 1, and Fig. 3 is a plan view showing a conventional honing shape. Cross section, 4th
Figure A is a diagram showing the experimental results regarding chipping of the cutting edge when the product of the honing width of the rake face and the honing width of the barbed face is held constant and each honing width is changed. Figure 5 is a side view showing the state of attachment of the thrower switch to the holding rod; Figure 6 is a sectional view taken along the line W- in Figure 5; The figure is a sectional view showing the principle of the honing method of the present invention, Figure 8 is a side view showing a state in which a large number of throw-away tips are attached to a holding rod, and Figure 9 is an example of the honing shape according to the present invention. 10 is a sectional view taken along the X-X line in FIG. 9, FIG. 11 is an enlarged sectional view taken along the Koichi-Ki line in FIG. 9, and FIG. 12 shows the test results regarding wear resistance. FIG. 1, 10... Throwaway tip, la, 10a...
...Rake face, lb, 10b...Rake face, R...
...Nose part, S...Liquid containing abrasive material,
T...cutting edge, Wa...honing width of the rake face (at the cutting edge), W... honing width of the rake face (at the cutting edge), Wb... Honing width of the rake face (in the nose part), Wb'... Honing width of the rake face (in the nose part). Fig. 1 Vertical 2 Fig. Fin 3 Liu section 4 Fig. 5 Fig. Fin 6 Medulla section 7 Fig. 8 Fig. Vertical 9 Fig. Oto-0 Fig. Kei 11 Fig. Section 12 Fig.
Claims (1)
ズ部とにホーニングを施したスローアウエイチツプにお
いて、すくい面のホーニング幅がにげ面のホーニング幅
よりも広く、かつ前記ノーズ部のホーニング幅がその先
端から前記各切刃稜側にかけて漸次広くなり、さらに当
該各ホーニング部が前記すくい面とにげ面とに滑らかに
連続する曲面であることを特徴とするスローアウエイチ
ツプのホーニング形状。 2 スローアウエイチツプのノーズ部でそのすくい面側
に、前記ノーズ部に対する研磨材の衝突を抑制するため
の障害物を配置するとともに、前記スローアウエイチツ
プと障害物とを研磨材の入った液体中で高速往復運動さ
せることを特徴とするスローアウエイチツプのホーニン
グ方法。[Claims] 1. In a throw-away chip in which at least a cutting edge and a nose portion where the two cutting edges intersect are honed, the honing width of the rake face is wider than the honing width of the barbed face, and a throw characterized in that the honing width of the nose portion gradually increases from its tip to each of the cutting edge sides, and each honing portion is a curved surface that smoothly continues with the rake face and the rake face. Honed shape of away tip. 2. An obstacle is placed on the rake face side of the nose of the throw-away tip to suppress collision of the abrasive with the nose, and the throw-away tip and the obstacle are immersed in a liquid containing the abrasive. A method for honing a throw-away tip, which is characterized by high-speed reciprocating motion.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP364279A JPS6010843B2 (en) | 1979-01-16 | 1979-01-16 | Throwaway tip honing shape and honing method |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP364279A JPS6010843B2 (en) | 1979-01-16 | 1979-01-16 | Throwaway tip honing shape and honing method |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPS5596259A JPS5596259A (en) | 1980-07-22 |
| JPS6010843B2 true JPS6010843B2 (en) | 1985-03-20 |
Family
ID=11563127
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP364279A Expired JPS6010843B2 (en) | 1979-01-16 | 1979-01-16 | Throwaway tip honing shape and honing method |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPS6010843B2 (en) |
Families Citing this family (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| JPS61124327U (en) * | 1985-01-25 | 1986-08-05 | ||
| JPS61178101A (en) * | 1985-01-31 | 1986-08-09 | Sumitomo Electric Ind Ltd | Throw away tip |
| JPS6357102A (en) * | 1986-08-27 | 1988-03-11 | Kyocera Corp | Coating tip |
| CN102317018B (en) * | 2009-03-24 | 2014-04-23 | 日立工具股份有限公司 | Cutting tip replacement type rotary tool |
| JP6253533B2 (en) * | 2014-07-01 | 2017-12-27 | 株式会社神戸製鋼所 | Cutting tool manufacturing method |
-
1979
- 1979-01-16 JP JP364279A patent/JPS6010843B2/en not_active Expired
Also Published As
| Publication number | Publication date |
|---|---|
| JPS5596259A (en) | 1980-07-22 |
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