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JP5807773B2 - Drill bit - Google Patents
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JP5807773B2 - Drill bit - Google Patents

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Publication number
JP5807773B2
JP5807773B2 JP2011142322A JP2011142322A JP5807773B2 JP 5807773 B2 JP5807773 B2 JP 5807773B2 JP 2011142322 A JP2011142322 A JP 2011142322A JP 2011142322 A JP2011142322 A JP 2011142322A JP 5807773 B2 JP5807773 B2 JP 5807773B2
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surface portion
abrasive grains
outer peripheral
peripheral surface
connection
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JP2013006400A (en
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佳見 高橋
佳見 高橋
茂吉 小林
茂吉 小林
川又 隆
隆 川又
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Koki Holdings Co Ltd
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Hitachi Koki Co Ltd
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Priority to JP2011142322A priority Critical patent/JP5807773B2/en
Priority to GB201211355A priority patent/GB2492465A/en
Priority to CN 201220307456 priority patent/CN202781461U/en
Priority to TW101122968A priority patent/TW201309449A/en
Publication of JP2013006400A publication Critical patent/JP2013006400A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28DWORKING STONE OR STONE-LIKE MATERIALS
    • B28D1/00Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor
    • B28D1/02Working stone or stone-like materials, e.g. brick, concrete or glass, not provided for elsewhere; Machines, devices, tools therefor by sawing
    • B28D1/04Working 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
    • B28D1/041Working 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

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  • Engineering & Computer Science (AREA)
  • Mining & Mineral Resources (AREA)
  • Mechanical Engineering (AREA)
  • Polishing Bodies And Polishing Tools (AREA)
  • Processing Of Stones Or Stones Resemblance Materials (AREA)

Description

本発明はドリルビットに関し、特にコンクリート、硬質タイルに穿孔可能なドリルビットにする。   The present invention relates to a drill bit, and more particularly to a drill bit that can be drilled in concrete and hard tiles.

特許文献1に示されるように、略円筒状のボディ部を有し、ボディ部の先端にダイヤモンド砥粒が設けられたドリルビットが公知になっている。このドリルビットでは、円筒状の先端面に位置する先端平面部と、先端平面部から後端側に延びる外周面とにダイヤモンド砥粒が設けられ、このダイヤモンド砥粒により、コンクリート、硬質タイル等の被削材を研削しつつ穿孔している。   As shown in Patent Document 1, a drill bit having a substantially cylindrical body portion and diamond abrasive grains provided at the tip of the body portion is known. In this drill bit, diamond abrasive grains are provided on the front end flat surface located on the cylindrical front end surface and on the outer peripheral surface extending from the front end flat portion to the rear end side. With the diamond abrasive grains, concrete, hard tile, etc. Drilling while grinding the work material.

特開2011−121323号公報JP 2011-121323 A

上述したドリルビットではダイヤモンド砥粒により切削するため、ダイヤモンド砥粒が脱落や磨耗等でなくなってしまうと、その切削能力が低下する。よって本発明は、穿孔能力の低下を抑制したドリルビットを提供することを目的とする。   Since the above-described drill bit cuts with diamond abrasive grains, if the diamond abrasive grains are not dropped off or worn out, the cutting ability is reduced. Therefore, an object of this invention is to provide the drill bit which suppressed the fall of drilling capability.

上記課題を解決するために、本発明は、動力工具に装着されて回転する装着部と、中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され、該軸心を通り該軸心と一致する断面上において該先端平面部の距離は、該粒径の一乃至一.六倍になるように構成されていることを特徴とするドリルビットを提供する。 In order to solve the above-described problems, the present invention provides a mounting portion that is mounted on a power tool and rotates, and a hollow cylindrical shape that is coaxially rotated to the mounting portion at the axial rear end of the axial center of the hollow cylinder. A body part that cuts the work material at the axial tip, and a tip flat part extending in a plane in a direction perpendicular to the axial direction is provided at the tip of the body part , the outer periphery near the tip in said body portion, an outer peripheral surface portion is provided cross section orthogonal to the axial direction forms a circular circumferential shape, between the tip planar portion and outer peripheral surface portion in said body portion, connecting face portion In the body portion , abrasive grains are bonded to the front end flat portion, the outer peripheral surface portion, and the connection surface portion by an adhesive, and the connection surface portion and the connection surface portion pass through the axis and coincide with the axis. The connection surface portion and the outer peripheral surface portion are connected from the connection portion with the tip flat portion. The distance to the connection point is configured to be a two or three times the particle size of the abrasive grains, the distance the tip planar portion on the cross section coincides with the through axial center of the shaft heart, the particle diameter One to one. Provided is a drill bit characterized by being configured to be six times larger .

また上記課題を解決するために、動力工具に装着されて回転する装着部と、中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、該中空円筒の半径方向と交差する方向に延びる接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、該接続面部は、該外周面部との接続箇所から該先端平面部の接続箇所を結ぶ直線上において該砥粒が少なくとも二個並んで構成され、該軸心を通り該軸心と一致する断面上において該先端平面部の距離は、該砥粒の粒径の一乃至一.六倍になるように構成されていることを特徴とするドリルビットを提供する。 In order to solve the above-mentioned problems, a mounting portion that is mounted on the power tool and rotates, and a hollow cylindrical shape that is coaxially rotated integrally with the mounting portion at the axial rear end of the axial center of the hollow cylinder. And a body part that cuts the work material at the tip end in the axial direction. The body part is provided with a tip end flat part extending in a plane in a direction perpendicular to the axis direction. In the outer periphery in the vicinity of the tip, an outer peripheral surface portion in which a cross section orthogonal to the axial direction forms a circular shape is provided, and in the body portion , the radius of the hollow cylinder is provided between the tip flat portion and the outer peripheral surface portion. A connecting surface portion extending in a direction crossing the direction is provided, and in the body portion , abrasive grains are bonded to the distal end flat portion, the outer peripheral surface portion, and the connecting surface portion by an adhesive, and the connecting surface portion is connected to the outer peripheral surface portion. connecting the connecting portion between the tip planar portion from the connecting portion The abrasive grains on a line are configured in line at least two, a distance of the tip planar portion on the cross section coincides with the through axial center of the shaft mind one or one grain size of the abrasive grains. Provided is a drill bit characterized by being configured to be six times larger .

これらのような構成によると、接続面部上に二つ以上砥石が配置されるため、砥粒に係る負担を低減して、砥粒の脱落を抑制することができる。また仮に一個の砥粒が脱落したとしても、もう一個砥粒が存在するため、接続面による切削性を担保することができる。   According to such a structure, since two or more grindstones are arrange | positioned on a connection surface part, the burden concerning an abrasive grain can be reduced and drop-off | omission of an abrasive grain can be suppressed. Even if one abrasive grain falls off, another abrasive grain is present, so that the cutting ability by the connection surface can be ensured.

上記構成のドリルビットにおいて、該軸心を通り該軸心と一致する断面上において該先端平面部の長さは、該粒径の一乃至一.六倍になるように構成されていることが好ましい。また該先端平面部は、該半径方向において該砥粒が一乃至一.六個並んで構成されていることが好ましい。   In the drill bit configured as described above, the length of the tip flat surface portion on the cross section passing through the axis and coinciding with the axis is one to one of the particle diameters. It is preferable to be configured to be six times. Further, the tip flat portion has one to one abrasive grain in the radial direction. It is preferable that six are arranged side by side.

これらのような構成によると、先端平面部に一個以上砥粒が配置されるため、確実に先端平面部で切削を行うことができる。   According to such a configuration, since one or more abrasive grains are arranged on the tip flat portion, cutting can be reliably performed on the tip flat portion.

また該砥粒及び該接着剤は、該接続面部から該接続面部上に配置された該砥粒の最外部までの距離が、該粒径の一.五乃至二倍になるように構成されていることが好ましい。   The abrasive grains and the adhesive have a distance from the connecting surface portion to the outermost portion of the abrasive grains arranged on the connecting surface portion, which is one part of the particle size. It is preferably configured to be five to two times.

このような構成によると、接続面上に法線方向において一個以上の砥粒を配置することができ、最外層に位置する砥粒が脱落・剥離したとしても下に位置する砥粒で研削を行うことができる。   According to such a configuration, one or more abrasive grains can be arranged on the connection surface in the normal direction, and even if the abrasive grains located on the outermost layer fall off and peel off, grinding is performed with the abrasive grains located below. It can be carried out.

また該接着剤は、該先端平面部よりも該接続面部が厚肉に構成されていることが好ましい。このような構成によると、接続面部における砥粒の保持性が増して砥粒と接着剤との接合強度を高めることができ、砥粒の脱落・剥離を抑制することができる。 In addition, it is preferable that the connection surface portion of the adhesive is thicker than the flat surface portion of the tip. According to such a configuration, the retention of the abrasive grains on the connection surface portion can be increased, the bonding strength between the abrasive grains and the adhesive can be increased, and the falling and peeling of the abrasive grains can be suppressed.

また該砥粒はダイヤモンド砥粒であって、♯30乃至♯200の粒度であることが好ましい。このような構成によると、効率的にコンクリートや硬質タイルを切削することができる。The abrasive grains are diamond abrasive grains and preferably have a grain size of # 30 to # 200. According to such a configuration, concrete or hard tile can be cut efficiently.

上記課題を解決するために本発明はさらに、動力工具に装着されて回転する装着部と、中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され、該砥粒及び該接着剤は、該接続面部から該接続面部上に配置された該砥粒の最外部までの距離が、該粒径の一.五乃至二倍になるように構成されていることを特徴とするドリルビットを提供する。 In order to solve the above-described problems, the present invention further includes a mounting portion that is mounted on a power tool and rotates, and a hollow cylindrical shape that is coaxially rotated to the mounting portion at the axial rear end of the axial center of the hollow cylinder. A body part that cuts the work material at the axial tip, and a tip flat part extending in a plane in a direction perpendicular to the axial direction is provided at the tip of the body part, An outer peripheral surface portion in which a cross section orthogonal to the axial direction forms a circumferential shape is provided on the outer periphery in the vicinity of the tip of the body portion, and a connection surface portion is provided between the tip flat surface portion and the outer peripheral surface portion of the body portion. In the body portion, abrasive grains are bonded to the front end flat portion, the outer peripheral surface portion, and the connection surface portion by an adhesive, and the connection surface portion and the connection surface portion pass through the axis and coincide with the axis. The connecting surface portion and the outer peripheral surface portion from the connecting portion with the tip flat portion The distance to the connection point is configured to be two to three times the grain size of the abrasive grains, and the abrasive grains and the adhesive are disposed on the connection surface section from the connection surface section. The distance to the outermost part of the particle diameter is one of the particle diameters. Provided is a drill bit characterized by being configured to be five to two times .

上記課題を解決するために本発明はさらに、動力工具に装着されて回転する装着部と、
中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され、該接着剤は、該先端平面部よりも該接続面部が厚肉に構成されていることを特徴とするドリルビットを提供する。
In order to solve the above problems, the present invention further includes a mounting portion that is mounted on the power tool and rotates,
A hollow cylindrical body, fixed at the rear end in the axial direction of the axial center of the hollow cylinder so as to rotate coaxially and integrally with the mounting portion, and provided with a body portion for cutting a work material at the front end in the axial direction, The front end of the body part is provided with a front end flat part extending in a plane in a direction perpendicular to the axial direction, and a cross section orthogonal to the axial direction forms a circumference on the outer periphery in the vicinity of the front end of the body part. An outer peripheral surface portion is provided, and a connecting surface portion is provided between the front end flat portion and the outer peripheral surface portion in the body portion, and an end surface flat portion, the outer peripheral surface portion, and the connecting surface portion are ground on the body portion. The distance between the connecting portion between the connecting surface portion and the tip flat surface portion to the connecting portion between the connecting surface portion and the outer peripheral surface portion on the cross section passing through the axis and coinciding with the axial center is as follows: Constructed to be 2 to 3 times the grain size of the abrasive grains, the adhesive Provides a drill bit, characterized in that said connecting face portion is configured thicker than the tip planar portion.

本発明のドリルビットによれば、穿孔能力の低下を抑制することができる。   According to the drill bit of the present invention, it is possible to suppress a decrease in drilling ability.

本発明の実施の形態に係るドリルビッドの側面図。The side view of the drill bid which concerns on embodiment of this invention. 本発明の実施の形態に係るドリルビッドの先端部分を成型治具に挿入した状態での部分断面図。The fragmentary sectional view in the state where the tip part of the drill bid concerning an embodiment of the invention was inserted in the forming jig. 本発明の実施の形態に係るドリルビッドを動力工具に装着した状態での側面図。A side view in the state where a drill bid concerning an embodiment of the invention was equipped in a power tool. C値と穿孔率との関係を示すグラフ。The graph which shows the relationship between C value and a perforation rate. 本発明の実施の形態に係るドリルビッドの先端部分を成型治具に挿入した状態での断面図。Sectional drawing in the state which inserted the front-end | tip part of the drill bid which concerns on embodiment of this invention in the shaping | molding jig. 本発明の実施の形態に係るドリルビットを動力工具に装着した状態で動力工具を駆動した状態を示す図。The figure which shows the state which driven the power tool in the state which mounted | wore the power tool with the drill bit which concerns on embodiment of this invention. 本発明の実施の形態に係るドリルビットに作業時にかかる力の関係を示す図。The figure which shows the relationship of the force applied at the time of work to the drill bit which concerns on embodiment of this invention. 本発明の実施の形態に係るドリルビッドの変形例に係る先端部分を成型治具に挿入した状態での部分断面図。The fragmentary sectional view in the state where the tip part concerning a modification of a drill bid concerning an embodiment of the invention was inserted in a forming jig.

以下、本発明の実施の形態に係るドリルビットについて、図1乃至図7に基づき説明する。図1に示されるドリルビット1は、動力工具であるインパクトドライバ1A(図3)に装着される装着部2と、装着部2と一体に構成されて装着部2と同軸一体回転する中空円筒状のボディ部4と、装着部2とボディ部4との間に介在する鍔部3とから主に構成されている。   Hereinafter, a drill bit according to an embodiment of the present invention will be described with reference to FIGS. A drill bit 1 shown in FIG. 1 has a mounting portion 2 mounted on an impact driver 1A (FIG. 3) that is a power tool, and a hollow cylindrical shape that is integrated with the mounting portion 2 and rotates integrally with the mounting portion 2. The body part 4 and the flange part 3 interposed between the mounting part 2 and the body part 4 are mainly configured.

装着部2は、断面が六角形の、いわゆる六角軸であり、図3に示されるように、ドリルビット1をインパクトドライバ1Aのチャックに装着することができる。この六角形状の大きさは、JIS等の所定の規格値に基づき定められている。また、装着部2の軸方向の中央付近には、円周方向に連続した窪み部2aが形成されている。この窪み部2aにインパクトドライバ等のいわゆるワンタッチ取り付け機構(図示せず)のボールが嵌合することができる。   The mounting portion 2 is a so-called hexagonal shaft having a hexagonal cross section, and the drill bit 1 can be mounted on the chuck of the impact driver 1A as shown in FIG. The size of the hexagonal shape is determined based on a predetermined standard value such as JIS. Further, in the vicinity of the center of the mounting portion 2 in the axial direction, a recessed portion 2a continuous in the circumferential direction is formed. A ball of a so-called one-touch attachment mechanism (not shown) such as an impact driver can be fitted into the recess 2a.

鍔部3は、その外径がボディ部4の外径より大径な円板状に構成され、装着部2と同軸上に装着部2及びボディ部4と一体になるように構成されている。鍔部3は、穿孔作業中に発生する粉塵が作業者側に直接飛散するのを低減させる役目を果たすと共に、ドリルビット1における最大穿孔深さを規定している。   The flange portion 3 is configured in a disc shape whose outer diameter is larger than the outer diameter of the body portion 4, and is configured to be integrated with the mounting portion 2 and the body portion 4 coaxially with the mounting portion 2. . The flange portion 3 serves to reduce the dust generated during the drilling operation from directly scattering to the worker side and defines the maximum drilling depth in the drill bit 1.

ボディ部4は、鍔部3を介して装着部2の回転軸方向一端側に接続されており、中空円筒に構成されて、その円筒の軸心が装着部2の回転軸と同軸になるように配置されている。以下の説明においては、回転軸の軸方向であって装着部2からボディ部4に向かう方向を先端方向、反対を後端方向とし、軸方向と直交する方向を半径方向として説明する。ボディ部4は、その外径(後述の切り刃5の外径)が約14.5mmを成すように構成されており、後端側に位置する胴部4Aと胴部4Aの先端側に位置する先端部4Bとから構成されている。胴部4Aと先端部4Bとはいずれも中空円筒状に構成されている。   The body portion 4 is connected to one end side in the rotation axis direction of the mounting portion 2 via the flange portion 3 and is configured as a hollow cylinder so that the axis of the cylinder is coaxial with the rotation axis of the mounting portion 2. Is arranged. In the following description, the axial direction of the rotating shaft and the direction from the mounting portion 2 toward the body portion 4 will be referred to as the front end direction, the opposite will be referred to as the rear end direction, and the direction orthogonal to the axial direction will be described as the radial direction. The body portion 4 is configured such that an outer diameter thereof (an outer diameter of a cutting blade 5 described later) is about 14.5 mm, and is positioned on the rear end side of the body portion 4A and the front end side of the body portion 4A. And a tip portion 4B. The body portion 4A and the tip portion 4B are both formed in a hollow cylindrical shape.

胴部4Aは、薄くすることで切削抵抗を低減させながら、強度を保つために肉厚(半径方向厚さ)Tが1.5mm程度に構成されており、後端で鍔部3に接続されている。胴部4Aにおいてその外周面には、先後端方向を進行方向とする螺旋状の溝4bが形成されている。この溝4bにより後述の切り刃5でコンクリート等の被削材W(図3)を切削した時に生成される粉塵を穿孔外に導き排出することが可能になる。また胴部4Aにおいて鍔部3との接続箇所近傍には、先端側に向けて延びる長円状のコア排出孔4aが形成されている。   The body portion 4A is configured to have a thickness (radial thickness) T of about 1.5 mm in order to maintain strength while reducing cutting resistance by thinning, and is connected to the flange portion 3 at the rear end. ing. In the body portion 4A, a spiral groove 4b is formed on the outer peripheral surface of the body portion 4A. With this groove 4b, it becomes possible to guide and discharge the dust generated when the work material W (FIG. 3) such as concrete is cut with a cutting blade 5 described later to the outside of the perforation. Further, an oval core discharge hole 4a extending toward the distal end side is formed in the vicinity of the connection portion with the flange portion 3 in the trunk portion 4A.

先端部4Bは内径及び外径が胴部4Aと同径に構成されて胴部4Aの先端側に位置しており、周方向においてコア排出孔4aと同位置になるように先端部4Bの先端位置から後端側に向けて延びる切り欠き4bが形成され、その表面に切り刃5が設けられている。切り刃5は図2に示されるように、メッシュ♯35(メッシュ目開き500μm)のダイヤモンド砥粒5Aと、ダイヤモンド砥粒5Aを保持して先端部4Bと一体とするロウ材5Bとから構成されている。   The tip portion 4B has an inner diameter and an outer diameter that are the same as those of the barrel portion 4A and is located on the tip side of the barrel portion 4A. The tip of the tip portion 4B is located at the same position as the core discharge hole 4a in the circumferential direction. A notch 4b extending from the position toward the rear end side is formed, and a cutting blade 5 is provided on the surface thereof. As shown in FIG. 2, the cutting blade 5 is composed of diamond abrasive grains 5A of mesh # 35 (mesh opening 500 μm) and brazing material 5B that holds the diamond abrasive grains 5A and is integrated with the tip portion 4B. ing.

先端部4Bの先端には、軸方向と直交する方向に平面状に延びる先端平面部41が設けられ、外周には、軸方向と直交する断面が円形状を成すように構成された外周面部42が設けられ、先端平面部41と外周面部42との間には、接続面部である斜面部43が設けられている。   A distal end flat surface portion 41 extending in a planar shape in a direction orthogonal to the axial direction is provided at the distal end of the distal end portion 4B, and an outer peripheral surface portion 42 configured so that a cross section orthogonal to the axial direction forms a circular shape on the outer periphery. Between the front end flat surface portion 41 and the outer peripheral surface portion 42, a slope portion 43 that is a connection surface portion is provided.

斜面部43は、C0.7で形成されたC面から構成されている。上述のように先端部4Bの肉厚が胴部4Aの肉厚Tと同値であるため、先端平面部41の半径方向長さL1は、0.8mmとなる。この値は、ダイヤモンド砥粒5Aの一乃至一.六倍に含まれる値である。また斜面部43の先端平面部41との接続箇所から外周面部42の接続箇所までの距離、即ちボディ部4の軸心を通り軸心と一致する断面上における斜面部43の長さL2は、1.0mmとなり、この値は、ダイヤモンド砥粒5Aの二倍以上の値である。即ち、先端平面部41はダイヤモンド砥粒5Aが半径方向に少なくとも一個配置可能な大きさに構成されており、故にダイヤモンド砥粒5Aが一個配置されている。斜面部43は、ダイヤモンド砥粒5Aが軸心を通り軸心と一致する断面における長さが少なくとも二個配置可能な大きさに構成されており、故にダイヤモンド砥粒5Aが二個以上配置されている。
The slope part 43 is comprised from the C surface formed by C0.7. As described above, since the thickness of the distal end portion 4B is equal to the thickness T of the body portion 4A, the radial length L1 of the distal end flat portion 41 is 0.8 mm. This value is one to one of the diamond abrasive grains 5A. It is a value included in six times. In addition, the distance from the connecting portion of the inclined surface portion 43 to the tip flat surface portion 41 to the connecting portion of the outer peripheral surface portion 42, that is, the length L2 of the inclined surface portion 43 on the cross section passing through the axis of the body portion 4 and the axis is 1.0 mm, which is twice or more the diamond abrasive grains 5A. That is, the tip flat surface portion 41 is configured to have a size that allows at least one diamond abrasive grain 5A to be arranged in the radial direction, and therefore one diamond abrasive grain 5A is arranged. The slope portion 43 is configured to have a size such that at least two diamond abrasive grains 5A can be arranged in a section where the diamond abrasive grains 5A pass through the axis and coincide with the axis, and therefore two or more diamond abrasive grains 5A are arranged. Yes.

切り刃5は、ニッケル金属粉を主成分としたロウ材5Bを先端部4Bに塗布した後に、ダイヤモンド砥粒5Aをまぶし、図5に示されるような成形治具10に形成された凹部10a内に先端部4Bを挿入し、その後に加熱することによってロウ材5Bによりダイヤモンド砥粒5Aが成形治具10で成形された状態で先端部4Bに保持される。この成形治具10において凹部10aの形状は、図3に示されるように、先端平面部41と凹部10aの底面及び外周面部42と凹部10aの側面の間の距離L3が約0.7mmになると共に、凹部10aにおいて斜面部43と対向する箇所がR形状を有するように構成する。この状態において、斜面部43から凹部10aのR形状部分までの最大距離L4がダイヤモンド砥粒5A粒径の一.五倍乃至二倍になるように形状化する。このように構成することにより、斜面部43の表面上にダイヤモンド砥粒5Aが担持され、その担持されたダイヤモンド砥粒5Aの更に上にもダイヤモンド砥粒5Aを配置することができる。即ち、図2に示される斜面部43においてその法線方向にダイヤモンド砥粒5Aを一個以上配置することができる。このような構成により、最外層に位置するダイヤモンド砥粒5Aが脱落・剥離したとしても斜面部43表面側に位置する砥粒で研削を行うことができる。   The cutting blade 5 is coated with a diamond abrasive grain 5A after applying a brazing material 5B mainly composed of nickel metal powder to the tip portion 4B, and within the recess 10a formed in the forming jig 10 as shown in FIG. The tip 4B is inserted into the tip, and then heated, whereby the diamond abrasive grains 5A are held by the tip 4B while being molded by the molding jig 10 by the brazing material 5B. In this forming jig 10, the shape of the recess 10a is such that the distance L3 between the tip flat surface portion 41 and the bottom surface of the recess 10a and the outer peripheral surface portion 42 and the side surface of the recess 10a is about 0.7 mm, as shown in FIG. In addition, the concave portion 10a is configured so that the portion facing the slope portion 43 has an R shape. In this state, the maximum distance L4 from the slope portion 43 to the R-shaped portion of the recess 10a is one of the diameters of the diamond abrasive grains 5A. Shape it to be 5 to 2 times. By comprising in this way, the diamond abrasive grain 5A is carry | supported on the surface of the slope part 43, and the diamond abrasive grain 5A can be arrange | positioned further on the carried diamond abrasive grain 5A. That is, one or more diamond abrasive grains 5A can be arranged in the normal direction in the slope portion 43 shown in FIG. With such a configuration, even if the diamond abrasive grains 5A located in the outermost layer fall off and peel off, it is possible to perform grinding with the abrasive grains located on the surface side of the slope portion 43.

また上述のように、先端平面41から凹部10aの底面までの距離L3に比べて、斜面部43から凹部10aのR形状部分までの距離L4を大きくすることにより、先端平面部41に比べて斜面部43に肉厚のロウ材5Bを盛ると共に多量のダイヤモンド砥粒5Aを付着させることができる。これにより、斜面部43におけるダイヤモンド砥粒5Aの保持性が増してダイヤモンド砥粒5Aとロウ材5Bとの接合強度を高めることができ、ダイヤモンド砥粒5Aの脱落・剥離が抑制されて斜面部43でのダイヤモンド砥粒5Aの保持性が向上する。   In addition, as described above, the distance L4 from the inclined surface portion 43 to the R-shaped portion of the recessed portion 10a is made larger than the distance L3 from the distal end flat surface 41 to the bottom surface of the recessed portion 10a, thereby A thick brazing material 5B can be deposited on the portion 43 and a large amount of diamond abrasive grains 5A can be attached. As a result, the holding ability of the diamond abrasive grains 5A on the slope portion 43 can be increased, and the bonding strength between the diamond abrasive grains 5A and the brazing material 5B can be increased. This improves the retention of the diamond abrasive grains 5A.

上記構成のドリルビット1において穿孔作業を行った結果、穿孔時に最も負荷がかかるのは先端平面部41ではなく斜面部43であることが解った。その理由として、次のことが考えられる。   As a result of drilling work with the drill bit 1 having the above-described configuration, it was found that it was the slope 43 rather than the tip flat part 41 that caused the most load during drilling. The reason is considered as follows.

まずは、インパクトドライバ1Aへのドリルビット1を取り付け時のガタ、インパクトドライバ1Aやドリルビット1の寸法精度、ドリルビット1の刃先の振れや真円度により刃先の外周部が中心軸からずれてしまうことである。また図6に示すように、回転時の遠心力によりドリルビット1は、先端が中心軸回りに弧を描くような回転となってしまうため、この状態で穿孔すると、図7に示すようなドリルビット1の下向きの進行方向の矢印S1に対し、遠心力による径方向の力の矢印S2、下向きの矢印S1と径方向の矢印S2の合成値である斜め下向きの矢印S3の力が発生する。この矢印S3の長さから、斜め下向きの力が一番大きくなることがわかる。   First, the outer periphery of the cutting edge will deviate from the central axis due to backlash when attaching the drill bit 1 to the impact driver 1A, dimensional accuracy of the impact driver 1A and drill bit 1, runout and roundness of the cutting edge of the drill bit 1. That is. Also, as shown in FIG. 6, the drill bit 1 is rotated such that the tip of the drill bit 1 forms an arc around the central axis due to the centrifugal force at the time of rotation. A force of a radial force arrow S2 due to centrifugal force and a diagonally downward arrow S3, which is a combined value of the downward arrow S1 and the radial arrow S2, are generated with respect to the downward moving arrow S1 of the bit 1. From the length of the arrow S3, it can be seen that the diagonally downward force is the largest.

以上のことから、先端平面部41のダイヤモンド砥粒5Aが脱落等によりなくなっても外周面部42のダイヤモンド砥粒5Aが残っていれば穿孔可能であることを実験で確認している。   From the above, it has been experimentally confirmed that drilling is possible if the diamond abrasive grains 5A on the outer peripheral surface portion 42 remain even if the diamond abrasive grains 5A on the tip flat surface portion 41 disappear due to dropping or the like.

以上の実験結果に基づき、上述の斜面部43の最適な値を規定するために、同一形状を成すドリルビットにおいて、斜面部を、C値が、0.4、0.45、0.6、0.7の四水準で作成し、それぞれ穿孔率の試験を行った。ここで穿孔率の試験とは、所定の深さの孔を何個形成できるかを調べる試験であり、その試験結果を図4のグラフの縦軸に百分率で縦軸に表記している。この試験結果によると、C0.4からC0.6に変化させたとしても、その穿孔率は30%程度しか上昇しないが、C0.6からC0.7に変化させると、その穿孔率は45%も上昇した。従ってC値は、0.7以上とすることが好ましい。またC値を0.7とすることにより、斜面部43の長さL2は1.0mmとなるがこの値は上述のように少なくともダイヤモンド砥粒5Aを二個以上配置できる長さである。よって本実施の形態では、C値を0.7とした。   Based on the above experimental results, in order to define the optimum value of the slope portion 43 described above, in the drill bit having the same shape, the slope portion has a C value of 0.4, 0.45, 0.6, It was prepared at four levels of 0.7, and the perforation rate was tested respectively. Here, the perforation rate test is a test for examining how many holes of a predetermined depth can be formed, and the test results are expressed in percentage on the vertical axis of the graph of FIG. 4 on the vertical axis. According to this test result, even if the C0.4 is changed to C0.6, the perforation rate is only increased by about 30%. However, when the C0.6 is changed to C0.7, the perforation rate is 45%. Also rose. Therefore, the C value is preferably 0.7 or more. Further, by setting the C value to 0.7, the length L2 of the inclined surface portion 43 becomes 1.0 mm, but this value is a length that can arrange at least two diamond abrasive grains 5A as described above. Therefore, in this embodiment, the C value is set to 0.7.

またC値を大きくすると、先端平面部41の半径方向長さL1が小さくなり、半径方向長さL1をダイヤモンド砥粒5Aが一個以上配置可能な長さとすることができなくなるため、過度にC値を大きくすることは好ましくない。具体的にはC値を1.0以上にすると、半径方向長さL1が0.5mm以下となり、先端平面部41に一個以上のダイヤモンド砥粒5Aを配置することができなくなる。よってC値は0.7乃至1.0となることが好ましい。この範囲において半径方向長さL1は、ダイヤモンド砥粒5Aの一乃至一.六倍になり、斜面部43の長さL2は、ダイヤモンド砥粒5Aの二乃至三倍になる。   Further, when the C value is increased, the radial length L1 of the tip flat surface portion 41 is decreased, and the radial length L1 cannot be set to a length at which one or more diamond abrasive grains 5A can be arranged. It is not preferable to increase. Specifically, when the C value is 1.0 or more, the radial length L1 is 0.5 mm or less, and one or more diamond abrasive grains 5A cannot be disposed on the tip flat surface portion 41. Therefore, the C value is preferably 0.7 to 1.0. In this range, the radial length L1 is one to one of the diamond abrasive grains 5A. The length L2 of the slope 43 is twice or three times that of the diamond abrasive grains 5A.

本発明によるドリルビットは、上述した実施の形態に限定されず、特許請求の範囲に記載された範囲で種々の改良や変形が可能である。例えば、本実施の形態では、メッシュ♯35のダイヤモンド砥粒を使用したが、これに限らず、メッシュ♯30〜200のダイヤモンド砥粒であれば、好適にコンクリートや硬質タイルを研削することができる。また動力工具としてはインパクトドライバについて説明したが、これに限らず回転力を出力するドリル等であれば、いずれも装着して作業を行うことが可能である。   The drill bit according to the present invention is not limited to the above-described embodiment, and various improvements and modifications can be made within the scope described in the claims. For example, in the present embodiment, the diamond abrasive grains of mesh # 35 are used. However, the present invention is not limited to this, and the diamond abrasive grains of mesh # 30 to 200 can suitably grind concrete and hard tiles. . Further, although the impact driver has been described as the power tool, the present invention is not limited to this, and any drill or the like that outputs a rotational force can be mounted and operated.

また斜面部43と先端平面部41とにおけるロウ材5Bの肉厚の差に基づく斜面部43でのダイヤモンド砥粒5Aの保持性の向上は、斜面部43及び先端平面部41の長さとダイヤモンド砥粒5Aの粒径との関係に関連せずに成立する。   Further, the improvement of the holding ability of the diamond abrasive grains 5A on the slope portion 43 based on the difference in the thickness of the brazing material 5B between the slope portion 43 and the tip flat portion 41 depends on the length of the slope portion 43 and the tip flat portion 41 and the diamond grinding. It is established regardless of the relationship with the grain size of the grains 5A.

斜面部43は、本実施の形態においては平面状に構成したがこれに限らず、例えば図8に示されるように、凹状を成す斜面部143としてもよい。このように構成することにより、斜面部143の面積を多くすることができ、故にロウ材5Bが接着する面積も増えてロウ材5Bをより多く盛ることができる。ロウ材5Bが多く盛ることができることにより、より多くのダイヤモンド砥粒5Aを保持することができ、故に斜面部143上における切削性能をより確実に確保することができる。   In the present embodiment, the inclined surface portion 43 is formed in a planar shape. However, the present invention is not limited to this. For example, as illustrated in FIG. 8, the inclined surface portion 143 may be a concave inclined surface portion 143. By configuring in this way, the area of the slope portion 143 can be increased, and therefore the area to which the brazing material 5B adheres can be increased and more brazing material 5B can be provided. Since a large amount of brazing material 5B can be accumulated, more diamond abrasive grains 5A can be held, and therefore the cutting performance on the inclined surface portion 143 can be more reliably ensured.

1:ドリルビット 1A:インパクトドライバ 2:装着部 2a:窪み部 3:鍔部
4:ボディ部 4A:胴部 4B:先端部 4a:コア排出孔 切り欠き:4b
5:切り刃 5A:ダイヤモンド砥粒 5B:ロウ材 10:成形治具 10a:凹部
31a:溝 41:先端平面部 42:外周面部 43:斜面部
1: Drill bit 1A: Impact driver 2: Mounting part 2a: Recessed part 3: Gutter part 4: Body part 4A: Body part 4B: Tip part 4a: Core discharge hole Notch: 4b
5: Cutting blade 5A: Diamond abrasive grains 5B: Brazing material 10: Molding jig 10a: Recess
31a: Groove 41: Flat tip portion 42: Outer peripheral surface portion 43: Slope portion

Claims (7)

動力工具に装着されて回転する装着部と、
中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、
該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、
該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され
該軸心を通り該軸心と一致する断面上において該先端平面部の距離は、該粒径の一乃至一.六倍になるように構成されていることを特徴とするドリルビット。
A mounting part that is mounted on a power tool and rotates;
A hollow cylindrical body fixed at the axially rear end of the axial center of the hollow cylinder so as to rotate coaxially and integrally with the mounting portion; and a body portion that cuts the work material at the axially leading end; and
The front end of the body part is provided with a front end flat part extending in a plane in a direction orthogonal to the axial direction. The outer periphery of the body part in the vicinity of the front end has a circumferential cross section orthogonal to the axial direction. An outer peripheral surface portion is provided, a connection surface portion is provided between the front end flat portion and the outer peripheral surface portion in the body portion, and in the body portion, the front end flat portion, the outer peripheral surface portion, and the connection surface portion are Abrasive grains are bonded by an adhesive,
The distance from the connection location between the connection surface portion and the tip flat surface portion to the connection location between the connection surface portion and the outer peripheral surface portion on the cross section passing through the axis and coinciding with the axis is equal to the grain size of the abrasive grains. To be configured to be tripled ,
On the cross section passing through the axial center and coinciding with the axial center, the distance of the flat tip portion is one to one of the particle sizes. A drill bit characterized by being configured to be six times as large .
動力工具に装着されて回転する装着部と、
中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、
該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、該中空円筒の半径方向と交差する方向に延びる接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、
該接続面部は、該外周面部との接続箇所から該先端平面部との接続箇所を結ぶ直線上において該砥粒が少なくとも二個並んで構成され、
該軸心を通り該軸心と一致する断面上において該先端平面部の距離は、該砥粒の粒径の一乃至一.六倍になるように構成されていることを特徴とするドリルビット。
A mounting part that is mounted on a power tool and rotates;
A hollow cylindrical body fixed at the axially rear end of the axial center of the hollow cylinder so as to rotate coaxially and integrally with the mounting portion; and a body portion that cuts the work material at the axially leading end; and
The front end of the body part is provided with a front end flat part extending in a plane in a direction orthogonal to the axial direction. The outer periphery of the body part in the vicinity of the front end has a circumferential cross section orthogonal to the axial direction. An outer peripheral surface portion is provided, and a connecting surface portion extending in a direction intersecting with a radial direction of the hollow cylinder is provided between the tip flat surface portion and the outer peripheral surface portion in the body portion. Abrasive grains are bonded to the part, the outer peripheral surface part and the connection surface part by an adhesive,
The connection surface portion is configured by arranging at least two of the abrasive grains on a straight line connecting the connection portion with the outer peripheral surface portion to the connection portion with the tip flat surface portion,
On the cross section passing through the axis and coinciding with the axis, the distance of the flat surface of the tip is one to one of the grain sizes of the abrasive grains . A drill bit characterized by being configured to be six times as large.
該砥粒及び該接着剤は、該接続面部から該接続面部上に配置された該砥粒の最外部までの距離が、該粒径の一.五乃至二倍になるように構成されていることを特徴とする請求項1又は請求項2に記載のドリルビット。 The abrasive grains and the adhesive have a distance from the connection surface portion to the outermost portion of the abrasive grains disposed on the connection surface portion, which is one of the particle diameters. The drill bit according to claim 1 or 2 , wherein the drill bit is configured to be five to two times . 該接着剤は、該先端平面部よりも該接続面部が厚肉に構成されていることを特徴とする請求項1乃至請求項3のいずれか一に記載のドリルビット。 The drill bit according to any one of claims 1 to 3 , wherein the connection surface portion of the adhesive is thicker than the tip flat portion . 該砥粒はダイヤモンド砥粒であって、♯30乃至♯200の粒度であることを特徴とする請求項1乃至請求項4のいずれか一に記載のドリルビット。 The drill bit according to any one of claims 1 to 4, wherein the abrasive grains are diamond abrasive grains and have a grain size of # 30 to # 200 . 動力工具に装着されて回転する装着部と、
中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、
該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、
該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され、
該砥粒及び該接着剤は、該接続面部から該接続面部上に配置された該砥粒の最外部までの距離が、該粒径の一.五乃至二倍になるように構成されていることを特徴とするドリルビット。
A mounting part that is mounted on a power tool and rotates;
A hollow cylindrical body fixed at the axially rear end of the axial center of the hollow cylinder so as to rotate coaxially and integrally with the mounting portion; and a body portion that cuts the work material at the axially leading end; and
The front end of the body part is provided with a front end flat part extending in a plane in a direction orthogonal to the axial direction. The outer periphery of the body part in the vicinity of the front end has a circumferential cross section orthogonal to the axial direction. An outer peripheral surface portion is provided, a connection surface portion is provided between the front end flat portion and the outer peripheral surface portion in the body portion, and in the body portion, the front end flat portion, the outer peripheral surface portion, and the connection surface portion are Abrasive grains are bonded by an adhesive,
The distance from the connection location between the connection surface portion and the tip flat surface portion to the connection location between the connection surface portion and the outer peripheral surface portion on the cross section passing through the axis and coinciding with the axis is equal to the grain size of the abrasive grains. To be configured to be tripled,
The abrasive grains and the adhesive have a distance from the connection surface portion to the outermost portion of the abrasive grains disposed on the connection surface portion, which is one of the particle diameters. A drill bit characterized in that it is configured to be five to two times .
動力工具に装着されて回転する装着部と、
中空円筒状に構成されて該中空円筒の軸心の軸方向後端で該装着部に同軸一体回転するように固定され、該軸方向先端で被削材を切削するボディ部とを備え、
該ボディ部において先端には、該軸方向と直交する方向に平面状に延びる先端平面部が設けられ、該ボディ部において先端近傍の外周には、該軸方向と直交する断面が円周状を成す外周面部が設けられ、該ボディ部において該先端平面部と該外周面部との間には、接続面部が設けられ、該ボディ部において該先端平面部と該外周面部と該接続面部には、砥粒が接着剤により接着され、
該軸心を通り該軸心と一致する断面上において該接続面部と該先端平面部との接続箇所から該接続面部と外周面部との接続箇所までの距離は、該砥粒の粒径の二乃至三倍になるように構成され、
該接着剤は、該先端平面部よりも該接続面部が厚肉に構成されていることを特徴とするドリルビット。
A mounting part that is mounted on a power tool and rotates;
A hollow cylindrical body fixed at the axially rear end of the axial center of the hollow cylinder so as to rotate coaxially and integrally with the mounting portion; and a body portion that cuts the work material at the axially leading end; and
The front end of the body part is provided with a front end flat part extending in a plane in a direction orthogonal to the axial direction. The outer periphery of the body part in the vicinity of the front end has a circumferential cross section orthogonal to the axial direction. An outer peripheral surface portion is provided, a connection surface portion is provided between the front end flat portion and the outer peripheral surface portion in the body portion, and in the body portion, the front end flat portion, the outer peripheral surface portion, and the connection surface portion are Abrasive grains are bonded by an adhesive,
The distance from the connection location between the connection surface portion and the tip flat surface portion to the connection location between the connection surface portion and the outer peripheral surface portion on the cross section passing through the axis and coinciding with the axis is equal to the grain size of the abrasive grains. To be configured to be tripled,
The drill bit, wherein the adhesive has a connection surface portion thicker than the tip flat portion .
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DE3600189A1 (en) * 1986-01-16 1987-07-16 Kazachskij Politekhn I Im W I DIAMOND DRILL BIT
US5137098A (en) * 1990-02-14 1992-08-11 Inland Diamond Products Company Diamond tool for drilling and routing
JP2685659B2 (en) * 1991-01-29 1997-12-03 株式会社日立製作所 Diamond core drill
EP0807493B1 (en) * 1995-02-01 2002-11-06 Hiroshi Ishizuka Superabrasive electroplated cutting edge and method of manufacturing the same
JP3606742B2 (en) * 1998-08-19 2005-01-05 株式会社ノリタケスーパーアブレーシブ Core bit with clearance in the base metal
KR100564271B1 (en) * 2004-04-14 2006-03-29 신한다이아몬드공업 주식회사 Concave Diamond Tools
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