JPH0818327B2 - Core drill - Google Patents
Core drillInfo
- Publication number
- JPH0818327B2 JPH0818327B2 JP4044910A JP4491092A JPH0818327B2 JP H0818327 B2 JPH0818327 B2 JP H0818327B2 JP 4044910 A JP4044910 A JP 4044910A JP 4491092 A JP4491092 A JP 4491092A JP H0818327 B2 JPH0818327 B2 JP H0818327B2
- Authority
- JP
- Japan
- Prior art keywords
- cutting
- tip
- abrasive
- cutting tip
- core
- 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 - Lifetime
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B28—WORKING CEMENT, CLAY, OR STONE
- B28D—WORKING STONE OR STONE-LIKE MATERIALS
- B28D1/00—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
- B28D1/02—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
- B28D1/04—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing with circular or cylindrical saw-blades or saw-discs
- B28D1/041—Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing with circular or cylindrical saw-blades or saw-discs with cylinder saws, e.g. trepanning; saw cylinders, e.g. having their cutting rim equipped with abrasive particles
Landscapes
- Engineering & Computer Science (AREA)
- Mining & Mineral Resources (AREA)
- Mechanical Engineering (AREA)
- Drilling Tools (AREA)
- Polishing Bodies And Polishing Tools (AREA)
- Processing Of Stones Or Stones Resemblance Materials (AREA)
Description
【0001】[0001]
【産業上の利用分野】この発明は、コンクリート等の被
削材を穿孔するためのコアドリルに関し、詳しくは、切
削部位に空気等の冷却用気体とともに研削材を供給して
切削効率の向上を図る乾式のドリル装置に用いられるコ
アドリルに関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a core drill for drilling a work material such as concrete, and more specifically, it supplies a grinding material together with a cooling gas such as air to a cutting portion to improve cutting efficiency. The present invention relates to a core drill used in a dry drill device.
【0002】[0002]
【従来の技術】この種のコアドリルでは、筒状コアの先
端に複数のブロック状の切削チップが周方向に間隔をお
いて固着された構造となっており、周方向における各切
削チップ間の空隙部は、主として空気等の冷却気体や切
削屑の排出促進孔としての役割をなす。2. Description of the Related Art A core drill of this type has a structure in which a plurality of block-shaped cutting tips are fixed to the tip of a cylindrical core at intervals in the circumferential direction, and a gap between the cutting tips in the circumferential direction. The portion mainly serves as a discharge promoting hole for cooling gas such as air and cutting chips.
【0003】また、各切削チップは切刃としてのダイヤ
モンド粒をバインダ材で固めて形成されており、良好な
切削状態が維持されるには、最外面のダイヤモンド粒が
切刃としての役目を終えて損耗ないし欠落した後に、バ
インダ材が適度に摩耗して順次内方の新しいダイヤモン
ド粒が現れる目立て作用が要求される。本出願人は、研
削材を冷却用気体としての圧搾空気とともに被削材の切
削部位に送り込み、切削チップの冷却と目立て作用とを
同時に行うことが非常に有益であることを発見し、特願
平3ー86940号及び同3ー215201号にて、研
削材と圧搾空気との混合流体供給技術を提供している。Further, each cutting tip is formed by solidifying diamond grains as a cutting edge with a binder material, and in order to maintain a good cutting state, the diamond grain on the outermost surface finishes its role as a cutting edge. After the abrasion or loss, the binder material is appropriately abraded, so that a new diamond grain inwardly appears so that a sharpening action is required. The applicant of the present invention has found that it is very useful to send the abrasive together with compressed air as a cooling gas to the cutting site of the work material to simultaneously cool the cutting tip and perform the dressing action. Japanese Patent Laid-Open Nos. 3-86940 and 3-215201 provide a mixed fluid supply technology of an abrasive and compressed air.
【0004】[0004]
【発明が解決しようとする課題】ところで、本出願人に
係る上記技術では、研削材による積極的な目立て作用に
よって切削効率の向上がなされることが実証されている
が、周方向における切削チップ間の空隙部の存在によっ
て研削材の供給効率が阻害されるという問題を同時に抱
える現状にある。By the way, it has been proved that the above-mentioned technique of the present applicant improves the cutting efficiency by the positive sharpening action of the abrasive material. At the same time, the problem that the supply efficiency of the abrasive is hindered by the presence of the voids is present.
【0005】すなわち、良好な目立てがなされるには研
削材が切削チップの先端面に効率的に供給されることが
必要であるが、空隙部では冷却用気体による切削チップ
の冷却と切削屑の排出とを兼ねた搬送流が生じるため、
図12に示すように、搬送流に研削材Kが導かれて切削
チップ16の先端面16a(被削面36aに接する面)
域に届かないまま、すなわち目立てに何ら寄与しないま
ま矢印E1 に示すように外部へ排出されている。一部は
矢印E2 に示すように切削チップ16の外周へ案内され
る。図はドリルが略水平となるいわゆる横切りでの切削
部位を示しており、符号14は筒状コアを示し、符号1
4c、14dは筒状コア14の先端面及び内面を示して
いる。また、符号38は切削チップ16間の空隙部を示
し、符号36はコンクリート等の被削材を示している。That is, it is necessary for the abrasive to be efficiently supplied to the tip surface of the cutting tip in order to achieve good sharpening. Since a carrier flow that doubles as discharge is generated,
As shown in FIG. 12, the abrasive material K is guided to the conveying flow and the tip surface 16a of the cutting tip 16 (the surface in contact with the work surface 36a).
It is discharged to the outside as shown by arrow E 1 without reaching the area, that is, without contributing to the dressing. A part is guided to the outer periphery of the cutting tip 16 as shown by arrow E 2 . The drawing shows a cutting portion in a so-called horizontal cut in which the drill is substantially horizontal, and reference numeral 14 indicates a tubular core, and reference numeral 1
Reference numerals 4c and 14d denote the tip end surface and the inner surface of the tubular core 14. Reference numeral 38 indicates a gap between the cutting tips 16, and reference numeral 36 indicates a work material such as concrete.
【0006】ところで、本発明者による実験を踏まえた
考察に基づけば、切削部位における切削状況を総合的に
判断した場合、空隙部の存在による冷却効率の良否より
も目立ての良否による実質的な切削能率の良否のほうが
全体の切削効率に与える影響が大きいと推測される。Incidentally, based on the consideration based on the experiment by the present inventors, when comprehensively judging the cutting situation at the cutting portion, the substantial cutting based on the sharpness is better than the cooling efficiency due to the existence of the void portion. It is presumed that the quality of the efficiency has a greater effect on the overall cutting efficiency.
【0007】また、冷却用気体による冷却機能並びに切
削屑等の排出は、切削チップの表面からランダムに突出
するダイヤモンド粒によって確保される切削チップと被
削材との間の微小間隙のみである程度達成されることも
確認されている。Further, the cooling function by the cooling gas and the discharge of cutting debris etc. are achieved to some extent only by the minute gap between the cutting tip and the work material, which is secured by the diamond grains randomly protruding from the surface of the cutting tip. It is also confirmed that it will be done.
【0008】従って、冷却用気体による切削チップの冷
却機能並びに切削屑の排出機能の確保に対し、切削チッ
プ先端面への研削材の供給効率を可能な限り優先させる
ことによって、結果的に切削効率の向上がなされること
が期待できる。Therefore, in order to secure the cooling function of the cutting tip and the discharging function of the cutting waste by the cooling gas, the efficiency of supplying the abrasive to the tip surface of the cutting tip is given priority as much as possible, resulting in the cutting efficiency. Can be expected to be improved.
【0009】そこで、この発明は、切削チップ先端面へ
の研削材の供給効率の向上を図ることができ、よって切
削効率の向上並びに研削材の使用効率の向上を図ること
ができるコアドリルの提供をその目的とする。Therefore, the present invention provides a core drill capable of improving the efficiency of supplying the abrasive to the tip end surface of the cutting tip, thus improving the efficiency of cutting and the efficiency of use of the abrasive. To that end.
【0010】[0010]
【課題を解決するための手段】この発明は、上記目的を
達成すべく創案されたもので、その特徴は、筒状コアの
先端にダイヤモンド粒をバインダ材で保持した切削チッ
プが固着されて成るコアドリルにおいて、 切削部位に筒
状コア内から冷却用気体とともに供給される研削材によ
り目立てされる上記切削チップが環状に一体成形されて
いるとともに被削面に接する切削チップの先端面が一連
に平坦に形成されている構成にある。なお、ここで平坦
とは、ダイヤモンド粒等の突出による微視的起伏は無視
した全体的な平坦状態を指す。(以下同じ)SUMMARY OF THE INVENTION The present invention was devised to achieve the above object, and is characterized by a cylindrical core
A cutting chip with diamond grains held at the tip with a binder
In core drill flop is formed by fixed, cylindrical cutting site
The abrasive that is supplied together with the cooling gas from inside the core
The cutting tip to be sharpened is integrally formed in an annular shape, and the tip end surface of the cutting tip in contact with the surface to be cut is formed to be flat in series. The term “flat” here means an overall flat state in which microscopic undulations due to protrusions of diamond grains or the like are ignored. (same as below)
【0011】また、この発明によれば、切削チップの内
周面には研削材を切削チップの先端面へ案内する案内溝
が周方向に間隔をおいて形成されている構成とすること
ができる。Further, according to the present invention, guide grooves for guiding the abrasive to the tip surface of the cutting tip may be formed on the inner peripheral surface of the cutting tip at intervals in the circumferential direction. .
【0012】また、この発明によれば、筒状コアの先端
にダイヤモンド粒をバインダ材で保持した切削チップが
固着されて成るコアドリルにおいて、 切削部位に筒状コ
ア内から冷却用気体とともに供給される研削材により目
立てされる上記切削チップが複数の単位チップを周方向
に連続配設した環状体として形成されているとともに被
削面に接する切削チップの先端面が一連に平坦に形成さ
れている構成とすることができる。According to the invention, the tip of the cylindrical core is
A cutting tip that holds diamond grains with a binder material
In a core drill that is fixedly attached, a cylindrical
A) The abrasive is supplied from the inside together with the cooling gas.
The cutting tip to be erected may be formed as an annular body in which a plurality of unit tips are continuously arranged in the circumferential direction, and the tip end surface of the cutting tip in contact with the work surface may be formed to be flat in series. it can.
【0013】また、この発明によれば、上記単位チップ
間の突き合わせ面は少なくとも一部分が切削チップの径
方向に対して屈曲する形状に形成されている構成とする
ことができる。Further, according to the present invention, at least a part of the abutting surfaces between the unit chips can be formed to be bent in the radial direction of the cutting chips.
【0014】[0014]
【作用】この発明によれば、研削材が筒状コア内に冷却
用気体とともに供給され、切削部位へ供給される。供給
された研削材は環状をなす切削チップの形状によって、
目立てに寄与しない状態での外方への通り抜けを阻止さ
れ、切削チップのダイヤモンド粒の突出による切削チッ
プと被削材との間の微小間隙から冷却用気体とともに外
方へ案内される。研削材は切削チップと被削材との間の
微小間隙を通過することによって、周方向における切削
チップの先端面域に供給される。According to the present invention, the abrasive is supplied into the cylindrical core together with the cooling gas, and then supplied to the cutting site. The supplied abrasive is shaped like an annular cutting tip,
It prevents passage through to the outside in a state where it does not contribute to dressing, and is guided to the outside together with the cooling gas from the minute gap between the cutting tip and the work material due to the protrusion of diamond grains of the cutting tip. The abrasive is supplied to the tip surface area of the cutting tip in the circumferential direction by passing through a minute gap between the cutting tip and the work material.
【0015】また、この発明によれば、研削材は案内溝
によって切削チップの周方向に均等に分配された状態で
切削チップの先端面へ供給される。Further, according to the present invention, the abrasive is supplied to the tip surface of the cutting tip in a state where the abrasive is evenly distributed in the circumferential direction of the cutting tip by the guide groove.
【0016】また、この発明によれば、単位チップ間の
突き合わせ面が切削チップの径方向に対して屈曲するの
で、突き合わせ面からの研削材の流出が阻止される。Further, according to the present invention, since the abutting surfaces between the unit tips are bent in the radial direction of the cutting tips, the abrasive material is prevented from flowing out from the abutting surfaces.
【0017】[0017]
【実施例】図1乃至図3はこの発明の一実施例を示す。
空冷タイプにおける横切りの切削例を示す。ドリル装置
2には、コアドリル4を有する装置本体部6と、切削屑
を吸引する集塵手段8と、図示しないコンプレッサ等の
空気供給源に接続される給気管10と、研削材Kを供給
する研削材供給手段12とが備えられている。1 to 3 show an embodiment of the present invention.
An example of transverse cutting in the air-cooled type is shown. The drill device 2 is supplied with a device body 6 having a core drill 4, a dust collecting means 8 for sucking cutting chips, an air supply pipe 10 connected to an air supply source such as a compressor (not shown), and an abrasive material K. The abrasive material supply means 12 is provided.
【0018】コアドリル4は、後端部に装置本体部6へ
の取付部14aを有する筒状コア14と、この筒状コア
14の先端14cに固着された一体成形による環状の切
削チップ16とから構成されている。The core drill 4 comprises a tubular core 14 having a mounting portion 14a for attaching to the apparatus body 6 at the rear end, and an integrally formed annular cutting tip 16 fixed to the tip 14c of the tubular core 14. It is configured.
【0019】切削チップ16は、ダイヤモンド粒をメタ
ルボンド等のバインダ材で保持したもので、筒状コア1
4の先端14cとの間で例えば相対的な凹凸嵌合構造を
介してろう付け等の手段で固着されている。一体成形に
よる環状の単体構造であるので、固着作業が容易である
ばかりでなく、周方向における部分的な固着精度のバラ
ツキを来さない。一体成形であるために周方向における
固着強度の分断を回避でき、脱落事故等の懸念を完全に
解消することができる。また、被削面に接する切削チッ
プ16の先端面16aは一連に平坦に形成されている。The cutting tip 16 is one in which diamond grains are held by a binder material such as a metal bond, and the cylindrical core 1
It is fixed to the tip 14c of No. 4 by means such as brazing, for example, through a relative concave-convex fitting structure. Since it is an annular unitary structure formed by integral molding, not only the fixing work is easy, but also the partial fixing accuracy in the circumferential direction does not vary. Since it is integrally molded, it is possible to avoid the separation of the fixing strength in the circumferential direction, and it is possible to completely eliminate the fear of a falling accident or the like. Further, the tip end surface 16a of the cutting tip 16 that is in contact with the surface to be cut is formed flat in series.
【0020】また、この例では筒状コア14の内周面1
4bには、研削材Kを切削部位へ強制誘導するための供
給溝20が筒状コア14の基部から先端に亘って螺旋状
に形成されている。供給溝20は、コアドリル4の回転
方向に対して逆ねじ態様で形成されるもので、この例で
は、コアドリル4の右回転に対して左ねじ態様で形成さ
れている。なお、本出願人は実願平3ー81309号に
て、特に横切り切削の場合に効力を発揮する螺旋供給溝
による研削材Kの強制誘導技術を提案済みである。Further, in this example, the inner peripheral surface 1 of the cylindrical core 14 is
A supply groove 20 for forcibly guiding the abrasive material K to the cutting portion is formed in 4b in a spiral shape from the base portion to the tip of the cylindrical core 14. The supply groove 20 is formed in a reverse screw form with respect to the rotation direction of the core drill 4, and in this example, is formed in a left screw form with respect to the right rotation of the core drill 4. The applicant of the present invention has proposed in Japanese Patent Application No. 3-811309 a technique for forcibly guiding the abrasive K by a spiral feed groove that is particularly effective in the case of transverse cutting.
【0021】装置本体部6の中央部には、電動モータ等
の駆動源に接続される駆動軸22が設けられており、そ
の先端に筒状コア14の取付部14aが螺合されてい
る。符号24はシール部材を示す。A drive shaft 22 connected to a drive source such as an electric motor is provided at the center of the apparatus main body 6, and a mounting portion 14a of the tubular core 14 is screwed to the tip thereof. Reference numeral 24 indicates a seal member.
【0022】集塵手段8は、コアドリル4に嵌合されて
切削部位を取り囲む吸引ヘッド26と、この吸引ヘッド
26と図示しない集塵機とを接続する集塵ホース28と
から構成されている。給気管10は装置本体部6の駆動
軸22にいわゆるスイベルジョイント態様で接続されて
おり、駆動軸22には、給気管10に連通する径方向の
水平供給路22aと、この水平供給路22aに連通して
筒状コア14内に臨む軸方向の垂直路22bが形成され
ている。The dust collecting means 8 is composed of a suction head 26 which is fitted to the core drill 4 and surrounds the cut portion, and a dust collecting hose 28 which connects the suction head 26 and a dust collector (not shown). The air supply pipe 10 is connected to a drive shaft 22 of the apparatus body 6 in a so-called swivel joint manner, and the drive shaft 22 has a radial horizontal supply passage 22a communicating with the air supply pipe 10 and a horizontal supply passage 22a. An axial vertical path 22b that communicates with and faces the inside of the tubular core 14 is formed.
【0023】研削材供給手段12は、研削材Kが収容さ
れる研削材タンク30と、給気管10と研削材タンク3
0とを接続する研削材供給路32と、この研削材供給路
32に設けられる開閉バルブ34とから構成されてい
る。The abrasive supply means 12 includes an abrasive tank 30 containing the abrasive K, an air supply pipe 10 and an abrasive tank 3.
0, and an opening / closing valve 34 provided in the grinding material supply path 32.
【0024】次にドリル装置2による穿孔過程を説明す
る。コアドリル4を回転駆動しながら移動させると切削
チップ16がコンクリート等の被削材36に食い付いて
穿孔が進行する。穿孔に伴って、給気管10を介して供
給される圧搾空気Aが駆動軸22内を通ってコアドリル
4内に送り込まれ、また、研削材供給手段12の開閉バ
ルブ34が開かれ、これによって研削材Kが研削材供給
路32から給気管10内に送り込まれる。給気管10内
に供給された研削材Kは圧搾空気Aの流れで搬送され、
コアドリル4内に送り込まれる。Next, the drilling process by the drill device 2 will be described. When the core drill 4 is moved while being rotationally driven, the cutting tip 16 bites against the work material 36 such as concrete and the drilling proceeds. Along with the perforation, the compressed air A supplied through the air supply pipe 10 is sent into the core drill 4 through the drive shaft 22, and the opening / closing valve 34 of the abrasive material supplying means 12 is opened. The material K is sent into the air supply pipe 10 from the abrasive supply path 32. The abrasive material K supplied into the air supply pipe 10 is conveyed by the flow of the compressed air A,
It is fed into the core drill 4.
【0025】送り込まれた研削材Kは供給溝20に集結
し、コアドリル4の回転に伴う螺旋形のねじ送り作用に
よって先端側へ強制誘導され、切削部位Pへ供給され
る。The fed abrasive material K is collected in the supply groove 20, and is forcibly guided to the tip side by the spiral screw feeding action accompanying the rotation of the core drill 4, and is supplied to the cutting portion P.
【0026】切削部位Pでは、図3に示すように、切削
チップ16の先端面16aから突出するダイヤモンド粒
16bによって切削チップ16と被削面36aとの間に
常時隙間gが形成されており、この隙間gが圧搾空気A
による搬送流の通路としてなる。At the cutting portion P, as shown in FIG. 3, a diamond grain 16b protruding from the tip surface 16a of the cutting tip 16 always forms a gap g between the cutting tip 16 and the surface 36a to be cut. Gap is compressed air A
It becomes a passage for the carrier flow.
【0027】研削材Kは搬送流によって隙間g内に供給
され、切削屑Dとともに外方へ排出される。隙間gは極
めて狭い空間であるので、供給された研削材Kは殆どが
切削チップ16の目立てに寄与する状態となり、この状
態が切削チップ16の全周に亘って維持される。The abrasive K is supplied into the gap g by the carrier flow and is discharged outward together with the cutting waste D. Since the gap g is an extremely narrow space, most of the supplied abrasive material K is in a state of contributing to the sharpening of the cutting tip 16, and this state is maintained over the entire circumference of the cutting tip 16.
【0028】これによって切削チップ16のバインダ材
16cが研削材Kとの接触で摩耗してドレッシング作用
が促され、切削チップ16の切れ味が穿孔作業中全体に
亘って低下することなく維持される。研削材Kの供給効
率の向上によって、切削効率の向上が得られるばかりで
なく、研削材Kの適正量による使用効率の向上を図るこ
とができる。また、隙間gの存在によって、圧搾空気A
による冷却機能が有効に維持されるとともに切削屑Dの
排出がなされる。As a result, the binder material 16c of the cutting tip 16 is worn by the contact with the abrasive material K and the dressing action is promoted, and the sharpness of the cutting tip 16 is maintained throughout the drilling operation without lowering. By improving the supply efficiency of the abrasive material K, not only the cutting efficiency can be improved, but also the use efficiency can be improved by the proper amount of the abrasive material K. In addition, the presence of the gap g causes the compressed air A
The cooling function is effectively maintained, and the cutting waste D is discharged.
【0029】研削材Kは供給溝20によって強制的に誘
導されるので、重力の影響を受ける横切り切削において
も切削部位Pに確実に供給され、上述のごとく供給され
た殆どが所期の目的である切削チップ16の目立てに寄
与することになる。Since the abrasive material K is forcibly guided by the supply groove 20, the abrasive material K is reliably supplied to the cutting site P even in transverse cutting under the influence of gravity, and most of the supplied material is for the intended purpose. It will contribute to the sharpening of a certain cutting tip 16.
【0030】次に図4及び図5は他の実施例を示すもの
で、上記例が切削チップ部位において研削材Kを規制無
しの状態で案内する構造であるのに対し、周方向におけ
る分散化機能を有する例である。Next, FIG. 4 and FIG. 5 show another embodiment. In the above-mentioned example, the abrasive material K is guided in the cutting tip portion in an unregulated state, but in the circumferential direction, it is dispersed. This is an example having a function.
【0031】一体成形された環状の切削チップ50の内
周面には、研削材Kをチップ先端面50aへ案内する案
内溝52が周方向に間隔をおいて複数形成されており、
各案内溝52は、径方向の深さを一定に軸方向全体に亘
って形成されている。案内溝52の形成によって、切削
チップ50は径方向の厚みがt1 の厚肉部50bと、厚
みがt2 の薄肉部50cが交互に存在する構成となって
いる。なお、先端面50aの平坦化は上記例と同様であ
る。On the inner peripheral surface of the integrally formed annular cutting tip 50, a plurality of guide grooves 52 for guiding the abrasive K to the tip end surface 50a are formed at intervals in the circumferential direction,
Each guide groove 52 is formed over the entire axial direction with a constant radial depth. Due to the formation of the guide groove 52, the cutting tip 50 has a structure in which a thick portion 50b having a thickness t 1 in the radial direction and a thin portion 50c having a thickness t 2 are alternately present. The flattening of the tip surface 50a is the same as in the above example.
【0032】筒状コア14内へ供給された研削材Kは、
図5に示すように、各案内溝52によって方向付けら
れ、全体的には周方向に均等分配された状態で切削チッ
プ50の先端面50aへ供給される。研削材Kの流れが
案内溝52によって方向付けられることによって、厚肉
部50bが研削材Kで浸食されることがなく、切削チッ
プ50全体としての長寿命化を図ることができる。The abrasive K supplied into the cylindrical core 14 is
As shown in FIG. 5, it is directed by each guide groove 52, and is supplied to the tip surface 50a of the cutting tip 50 in a state of being evenly distributed in the whole circumferential direction. Since the flow of the abrasive material K is directed by the guide groove 52, the thick portion 50b is not eroded by the abrasive material K, and the life of the cutting tip 50 as a whole can be extended.
【0033】次に図6及び図7は上記例の変形例を示
す。切削チップ50の内周面には、案内溝54が周方向
に間隔をおいて複数形成されており、各案内溝54は、
径方向の深さが先端側へ漸増する斜面形状に形成されて
おり、厚みがt1 の厚肉部50bと、先端厚みがt2 の
薄肉部50dが交互に存在する構成となっている。研削
材Kの案内機能は上記例とほぼ同様である。Next, FIGS. 6 and 7 show a modification of the above example. A plurality of guide grooves 54 are formed on the inner peripheral surface of the cutting tip 50 at intervals in the circumferential direction, and each guide groove 54 is
It is formed in a slanted surface shape in which the depth in the radial direction gradually increases toward the tip side, and a thick portion 50b having a thickness t 1 and a thin portion 50d having a tip thickness t 2 are alternately arranged. The guiding function of the abrasive K is almost the same as the above example.
【0034】次に図8及び図9は複数の単位チップの連
続配設による切削チップの環状体化の例を示す。切削チ
ップ56は、筒状コア14の先端において周方向に隙間
無く連続配設して固着された複数の単位チップ58から
構成されており、連続配設によって一つの環状体として
形成されている。Next, FIG. 8 and FIG. 9 show an example of forming a cutting tip into an annular body by continuously disposing a plurality of unit tips. The cutting tip 56 is composed of a plurality of unit tips 58 that are continuously arranged and fixed at the tip of the tubular core 14 without a gap in the circumferential direction, and are formed as one annular body by continuous arrangement.
【0035】各単位チップ58は平面形状が略N字形の
段差形に形成された突き合わせ面58aを有し、突き合
わせ面58aには、切削チップ56の径方向に対して、
すなわち、中心からの放射ラインに対してラインに略平
行な内面58b,外面58c及び略直角に屈曲する中央
面58dが形成されている。また、各単位チップ58の
内周面には上記例と同様の機能を有する案内溝60が形
成されている。また、切削チップ56において、各単位
チップ58の先端面58eは略面一に連なる平坦面を構
成する。Each unit tip 58 has an abutting surface 58a formed in a stepped shape having a substantially N-shaped planar shape, and the abutting surface 58a is formed in the radial direction of the cutting tip 56.
That is, an inner surface 58b, an outer surface 58c that are substantially parallel to the radiation line from the center, an outer surface 58c, and a central surface 58d that is bent at a substantially right angle are formed. In addition, a guide groove 60 having the same function as the above example is formed on the inner peripheral surface of each unit chip 58. Further, in the cutting tip 56, the tip surface 58e of each unit tip 58 constitutes a flat surface that is substantially flush.
【0036】上記構成によれば、各単位チップ58間が
凹凸嵌合によって接触するので、研削材Kの径方向への
流出が阻止され、分割構成による環状一体化の研削材漏
れの危惧を回避することができる。なお、この例では各
単位チップ58間は単なる突合せ状態であっても、研削
材Kの流出阻止機能並びに構造的連結強度を確保し得る
が、突き合わせ面58a同士をろう付け等で接合しても
よく、この場合、切削チップ56の一体化強度を向上さ
せることができるとともに、筒状コア14に対する固着
強度を上記例における一体成形のものと同等に高めるこ
とができる。According to the above construction, since the unit chips 58 are in contact with each other by the concave-convex fitting, the abrasive material K is prevented from flowing out in the radial direction, and the danger of leakage of the annular integrated abrasive material due to the divided construction is avoided. can do. In this example, even if the unit chips 58 are simply butted together, the outflow preventing function of the abrasive K and the structural connection strength can be secured, but the butted surfaces 58a can be joined together by brazing or the like. Of course, in this case, the integrated strength of the cutting tip 56 can be improved, and the fixing strength to the tubular core 14 can be increased to the same level as that of the integrally molded one in the above example.
【0037】次に図10及び図11は分割構成による環
状一体化の変形例を示す。切削チップ62は、周方向に
隙間無く連続配設して固着された複数の単位チップ64
から構成されており、上記例と同様、連続配設によって
一つの環状体として形成されている。Next, FIG. 10 and FIG. 11 show a modified example of annular integration by a divided structure. The cutting tip 62 includes a plurality of unit tips 64 that are continuously arranged and fixed in the circumferential direction without any gap.
And is formed as one annular body by continuous arrangement, as in the above example.
【0038】各単位チップ62は放射ラインに対して傾
斜(屈曲)する突き合わせ面62aを有するとともに、
案内溝66を有している。先端面64bが略面一に連な
る平坦面を構成することは上記例と同様であり、突き合
わせ面64aによる研削材Kの流出阻止機能も同様であ
る。また、突き合わせ面64a間の接合化も上記例と同
様である。Each unit chip 62 has an abutting surface 62a inclined (bent) with respect to the radiation line, and
It has a guide groove 66. It is the same as in the above example that the tip surface 64b forms a flat surface that is substantially flush with the same, and the abutting surface 64a has the same function of preventing the abrasive material K from flowing out. The joining between the abutting surfaces 64a is also similar to the above example.
【0039】[0039]
【発明の効果】この発明によれば、筒状コア内から切削
部位に冷却用気体とともに供給される切削材のほぼ全量
を切削チップの目立て作用し得る状態に供給することが
できるので、切削効率の向上を図ることができるととも
に、研削材の使用効率の向上を図ることができる。ま
た、請求項2に記載のように、切削チップの内周面に研
削材を切削チップの先端面へ案内する案内溝を周方向に
間隔をおいて形成することより、研削材を切削チップの
周方向に均等に分配した状態に切削チップの先端面に供
給することができるので、切削チップの部分的な浸食を
回避できて切削チップ全体としての長寿命化を図ること
ができる。 また、請求項4に記載のように、切削チップ
の単位チップ間の突き合わせ面を少なくとも一部分が切
削チップの径方向に対して屈曲する形状に形成すること
により、突き合わせ面からの研削材の流出が阻止される
ので、分割構成による環状一体化の研削材漏れの危惧を
回避することができる。 According to the present invention, cutting is performed from inside the tubular core.
Almost all of the cutting material supplied to the part together with the cooling gas can be supplied in a state where the cutting tip can be dressed, so that the cutting efficiency can be improved and the usage efficiency of the abrasive can be improved. Can be planned. Well
In addition, as described in claim 2, the inner peripheral surface of the cutting tip is ground.
A guide groove that guides the cutting material to the tip surface of the cutting tip
By forming at intervals, the abrasive material
Provide the tip surface of the cutting tip in a state that it is evenly distributed in the circumferential direction.
Can be supplied to prevent partial erosion of the cutting tip.
It can be avoided and the life of the cutting tip as a whole is extended.
Can be. Further, as described in claim 4, a cutting tip
At least part of the butt surface between the unit chips of
Forming a shape that bends in the radial direction of the cutting tip
Prevents the abrasive from flowing out from the abutting surfaces.
Therefore, there is a danger of leakage of abrasive material with annular integration due to the divided configuration.
It can be avoided.
【図1】この発明に係るコアドリルの一実施例を示す使
用状態の概要断面図である。FIG. 1 is a schematic cross-sectional view of a core drill according to an embodiment of the present invention in a use state.
【図2】要部斜視図である。FIG. 2 is a perspective view of a main part.
【図3】切削部位における研削材の供給状態並びに切削
屑の排出状態を示す要部拡大断面図である。FIG. 3 is an enlarged sectional view of an essential part showing a supply state of an abrasive material and a discharge state of cutting chips at a cutting portion.
【図4】他の例を示す要部斜視図である。FIG. 4 is a perspective view of a main part showing another example.
【図5】図4の例の切削部位における研削材の供給状態
を示す要部斜視図である。5 is a perspective view of a main part showing a supply state of an abrasive at a cutting portion in the example of FIG.
【図6】他の例を示す要部斜視図である。FIG. 6 is a main part perspective view showing another example.
【図7】図6の例の切削部位における研削材の供給状態
を示す要部斜視図である。FIG. 7 is a perspective view of a main part showing a supply state of an abrasive in a cutting portion in the example of FIG.
【図8】単位チップによる環状一体化の例を示す切削チ
ップの平面図である。FIG. 8 is a plan view of a cutting tip showing an example of annular integration with unit tips.
【図9】図8の例における要部斜視図である。9 is a perspective view of a main part in the example of FIG.
【図10】単位チップによる環状一体化の変形例を示す
切削チップの平面図である。FIG. 10 is a plan view of a cutting tip showing a modified example of annular integration with unit tips.
【図11】図10の例における要部斜視図である。11 is a perspective view of main parts in the example of FIG.
【図12】従来品における切削部位の要部斜視図であ
る。FIG. 12 is a perspective view of a main part of a cutting portion in a conventional product.
14 筒状コア 14a 筒状コアの先端 16,50,56,62 切削チップ 16a,50a 切削チップの先端面 16b ダイヤモンド粒 16c バインダ材 36a 被削面 52,54,60,66 案内溝 58,64 単位チップ A 圧搾空気(冷却用気体) K 研削材 P 切削部位 14 Cylindrical core 14a Cylindrical core tip 16,50,56,62 Cutting tip 16a, 50a Cutting tip tip surface 16b Diamond grain 16c Binder material 36a Work surface 52,54,60,66 Guide groove 58,64 Unit tip A Compressed air (cooling gas) K Abrasive P Cutting site
Claims (4)
ンダ材で保持した切削チップが固着されて成るコアドリ
ルにおいて、 切削部位に筒状コア内から冷却用気体とともに供給され
る研削材により目立てされる 上記切削チップが環状に一
体成形されているとともに被削面に接する切削チップの
先端面が一連に平坦に形成されていることを特徴とする
コアドリル。1. A diamond grain is attached to the tip of a cylindrical core.
Core drill consisting of fixed cutting chips held by a binder
The cooling gas is supplied to the cutting site from inside the tubular core together with the cooling gas.
A core drill, characterized in that the cutting tip, which is sharpened by an abrasive material, is integrally molded in an annular shape, and the tip end surface of the cutting tip, which is in contact with the work surface, is formed to be flat in series.
削チップの先端面に案内する案内溝が周方向に間隔をお
いて形成されている請求項1記載のコアドリル。2. The core drill according to claim 1, wherein guide grooves for guiding the abrasive to the tip surface of the cutting tip are formed on the inner peripheral surface of the cutting tip at intervals in the circumferential direction.
ンダ材で保持した切削チップが固着されて成るコアドリ
ルにおいて、 切削部位に筒状コア内から冷却用気体とともに供給され
る研削材により目立てされる 上記切削チップが複数の単
位チップを周方向に連続配設した環状体として形成され
ているとともに被削面に接する切削チップの先端面が一
連に平坦に形成されていることを特徴とするコアドリ
ル。3. A diamond grain is attached to the tip of the cylindrical core.
Core drill consisting of fixed cutting chips held by a binder
The cooling gas is supplied to the cutting site from inside the tubular core together with the cooling gas.
The cutting tip that is sharpened by the abrasive is formed as an annular body in which a plurality of unit chips are continuously arranged in the circumferential direction, and the tip end surface of the cutting tip that is in contact with the work surface is formed flat in series. A core drill characterized by.
くとも一部分が切削チップの径方向に対して屈曲する形
状に形成されている請求項3記載のコアドリル。4. The core drill according to claim 3, wherein at least a part of the abutting surface between the unit tips is formed to be bent in the radial direction of the cutting tip.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4044910A JPH0818327B2 (en) | 1992-03-02 | 1992-03-02 | Core drill |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP4044910A JPH0818327B2 (en) | 1992-03-02 | 1992-03-02 | Core drill |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0671638A JPH0671638A (en) | 1994-03-15 |
JPH0818327B2 true JPH0818327B2 (en) | 1996-02-28 |
Family
ID=12704621
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP4044910A Expired - Lifetime JPH0818327B2 (en) | 1992-03-02 | 1992-03-02 | Core drill |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH0818327B2 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2014017640A1 (en) | 2012-07-27 | 2014-01-30 | 富士フイルム株式会社 | Support for lithographic printing plate and manufacturing method therefor, as well as original lithographic printing plate |
WO2020026956A1 (en) | 2018-07-31 | 2020-02-06 | 富士フイルム株式会社 | Original plate for planographic printing plate, laminate of original plate for planographic printing plate, method for platemaking planographic printing plate, and planographic printing method |
Families Citing this family (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP4566375B2 (en) * | 2000-09-26 | 2010-10-20 | 天龍製鋸株式会社 | Metal bond tool |
GB2427843B (en) * | 2005-10-24 | 2008-05-07 | C4 Carbides Ltd | Drill bit |
JP5342744B2 (en) * | 2006-11-21 | 2013-11-13 | 株式会社大林組 | Drilling method |
KR101064426B1 (en) * | 2008-07-21 | 2011-09-14 | 한국원자력연구원 | Air cooling system of core drill |
EP3037230A1 (en) * | 2014-12-22 | 2016-06-29 | HILTI Aktiengesellschaft | Method for producing a closed drill ring for a core drill bit |
EP3037201A1 (en) * | 2014-12-22 | 2016-06-29 | HILTI Aktiengesellschaft | Method for producing a closed drill ring for a core drill bit |
EP3037200A1 (en) * | 2014-12-22 | 2016-06-29 | HILTI Aktiengesellschaft | Drill ring for a core drill bit and method for producing a drill ring |
EP3037229A1 (en) * | 2014-12-22 | 2016-06-29 | HILTI Aktiengesellschaft | Drill ring for a core drill bit |
WO2023228166A1 (en) * | 2023-06-17 | 2023-11-30 | Kabiri Jamal | Grooved cutting segment and method of its production |
Family Cites Families (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS6190874A (en) * | 1984-10-09 | 1986-05-09 | Shimizu Constr Co Ltd | Grinding tool dressing method |
JPS61148607U (en) * | 1985-03-04 | 1986-09-13 | ||
JPH03239409A (en) * | 1990-02-16 | 1991-10-25 | Asahi Glass Co Ltd | Coring method of plate like body and device thereof |
-
1992
- 1992-03-02 JP JP4044910A patent/JPH0818327B2/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2014017640A1 (en) | 2012-07-27 | 2014-01-30 | 富士フイルム株式会社 | Support for lithographic printing plate and manufacturing method therefor, as well as original lithographic printing plate |
WO2020026956A1 (en) | 2018-07-31 | 2020-02-06 | 富士フイルム株式会社 | Original plate for planographic printing plate, laminate of original plate for planographic printing plate, method for platemaking planographic printing plate, and planographic printing method |
Also Published As
Publication number | Publication date |
---|---|
JPH0671638A (en) | 1994-03-15 |
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