JP2005169591A - Adjustment tool for machining degree - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an adjustment tool which is not in hindrance when boring or screwing with a machining tool, when replacing the machining tool of the apparatus body with another thing, and when the machining degree of boring, screwing or the like does not especially require for adjustment. <P>SOLUTION: An adhesion part 1b to a side surface part Ta of the machining tool T is provided on the rear part of a main body 1 having a through-hole 1a. The adjustment tool is provided with a throttle body 2 which strengthens and weakens degree of adhesion with a side surface part Ta of the machining tool T by being screwed to the adhesion part 1b, and fastening or loosening the screwing, and an abutting body 3 to a machined surface Wa of a machined workpiece W on the tip end of the main body 1. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

この発明は、電動工具や空圧工具等の自動工具のドリルやドライバー等の加工具に装着し、その加工具による加工度合を調整する加工度合調整具に関するものである。   The present invention relates to a processing degree adjusting tool that is mounted on a processing tool such as a drill or driver of an automatic tool such as an electric tool or a pneumatic tool and adjusts the processing degree by the processing tool.

従来、この種の加工度合調整具として、例えば図１６に示したように、ビス、ボルト、止め具、釘等を緊締するドライバ、又は部材の孔穿けタップ、ネジ切りドリル、又はドライバ兼ドリルの併用手段等の機器具本体１２と、この機器具本体１２の先端外周部１１と、前記機器具本体１２に貫設した加工具１４と、この加工具１４を駆動する駆動部（図示せず）と、前記加工具１４の進入寸法、孔の深さ寸法等の寸法を決める作動促進補助用兼寸法計測可能なスライドシャフト１７と、このスライドシャフト１７の復帰を司る弾性体Ｂと、このスライドシャフト１７の基端に取付けた移動端子板１９と、前記先端外周部１１の内端に設けた固定端子板２０と、前記固定端子板２０及び／又は移動端子板１９に接続したコード２１とで構成されるものとしており、前記スライドシャフト１７を先端外周部１１に貫設し、かつこのスライドシャフト１７の先端部が前記加工具１４の先端より突出及び／又は陥没するように設け、このスライドシャフト１７の動作を利用して前記移動端子板１９を前記固定端子板２０より離脱して、前記駆動部への通電を停止し、前記加工具１４が停止する構成としている。   Conventionally, as this type of processing degree adjusting tool, for example, as shown in FIG. 16, a screwdriver, a member for tightening a screw, a bolt, a stopper, a nail or the like, or a hole drill tap, a threaded drill, or a driver / drill A device tool body 12 such as a combination means, a tip outer peripheral portion 11 of the device tool body 12, a processing tool 14 provided through the device tool body 12, and a drive unit (not shown) for driving the processing tool 14. A slide shaft 17 for assisting and measuring the operation promotion for determining dimensions such as an entrance dimension of the processing tool 14 and a hole depth dimension, an elastic body B for controlling the return of the slide shaft 17, and the slide shaft The movable terminal plate 19 attached to the base end of the reference numeral 17, the fixed terminal plate 20 provided at the inner end of the distal end outer peripheral portion 11, and the cord 21 connected to the fixed terminal plate 20 and / or the movable terminal plate 19. Is The slide shaft 17 is provided so as to penetrate the outer peripheral portion 11 of the tip, and the tip of the slide shaft 17 is provided so as to protrude and / or sink from the tip of the processing tool 14. The moving terminal plate 19 is detached from the fixed terminal plate 20 by using the power to stop energization to the drive unit and the processing tool 14 is stopped.

そして、このように構成した従来の加工度合調整具は、加工物質の大小又は形状が、平坦或いは複雑な異形であっても、長さ交換可能なスライドシャフト１７を利用することによって微力にて移動端子板１９が固定端子板２０より離れ、電流が即刻遮断され、モーター及び加工具１４の回転も即刻停止するので、孔穿けタップ、ネジ切り等の位置に関係なく、加工過剰又は加工不足は発生せず、的確な孔穿けタップ、ネジ切り等ができるものとなっている（特許文献１）。
特開２００２−３０７３２３号公報（第２、３頁、図１） The conventional processing degree adjuster configured as described above moves with a slight force by using the slide shaft 17 whose length can be exchanged even when the size or shape of the processed material is flat or complicated. Since the terminal plate 19 is separated from the fixed terminal plate 20, the current is immediately cut off, and the rotation of the motor and the processing tool 14 is also immediately stopped, so that over-processing or under-processing occurs regardless of the position of hole tap, threading, etc. Therefore, it is possible to perform accurate hole drilling, threading, and the like (Patent Document 1).
JP 2002-307323 A (2nd and 3rd pages, FIG. 1)

しかしながら、上記従来の加工度合調整具は、スライドシャフト１７を加工具１４から少し離れた側方位置に設けたものとしているため、加工具１４で孔穿けやネジ切り等をする場合に、スライドシャフト１７が邪魔になるという問題点を有していた。   However, since the conventional processing degree adjusting tool is provided with the slide shaft 17 at a lateral position slightly away from the processing tool 14, the slide shaft is used when drilling or threading with the processing tool 14. 17 had the problem of getting in the way.

また、従来の加工度合調整具は、前記スライドシャフト１７の存在により、機器具本体１２の加工具１４を別のものに取り替える場合、例えば孔穿けタップからネジ切りに取り替える場合等には、スライドシャフト１７が邪魔になるという問題点を有していた。   Further, the conventional processing degree adjusting tool is provided with the slide shaft 17 when the processing tool 14 of the device main body 12 is replaced with another one, for example, when the hole punching tap is replaced with threading. 17 had the problem of getting in the way.

さらに、従来の加工度合調整具では、孔穿け、ネジ切り等の加工度合いを特に調整する必要がない場合にも、前記スライドシャフト１７が機器具本体１１に常に装着されているため、このスライドシャフト１７が邪魔になるという問題点を有していた。   Further, in the conventional processing degree adjusting tool, the slide shaft 17 is always mounted on the device tool body 11 even when it is not necessary to adjust the processing degree such as drilling or threading. 17 had the problem of getting in the way.

そこで、この発明は、上記従来の問題点を解決することをその課題としており、加工具で孔穿けやネジ切り等をする場合、機器具本体の加工具を別のものに取り替える場合、孔穿け、ネジ切り等の加工度合いを特に調整する必要がない場合等に、邪魔になることのない加工度合調整具を提供することを目的としてなされたものである。   Therefore, the present invention has an object to solve the above-mentioned conventional problems, and when drilling or threading with a processing tool, when replacing the processing tool of the device tool body with another, drilling holes. The object of the present invention is to provide a working degree adjusting tool that does not get in the way when there is no particular need to adjust the working degree such as threading.

そのため、この発明の加工度合調整具は、貫通孔１ａを有する本体１の後部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、この密着部１ｂに螺合し、その螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設け、さらに前記本体１の先端に被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   Therefore, the processing degree adjusting tool of the present invention is provided with a close contact portion 1b to the side surface portion Ta of the processing tool T at the rear portion of the main body 1 having the through hole 1a, and is screwed into the close contact portion 1b. By tightening or loosening, a throttle body 2 is provided that increases or decreases the degree of adhesion with the side surface portion Ta of the processing tool T, and further, a work surface Wa of the work W is provided at the tip of the main body 1. The contact body 3 is provided.

さらに、この発明の加工度合調整具は、貫通孔１ａを有する本体１の前部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、この密着部１ｂに螺合し、その螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設け、さらに前記絞り体２の先端に被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   Furthermore, the processing degree adjusting tool of the present invention is provided with a close contact portion 1b to the side surface portion Ta of the processing tool T at the front portion of the main body 1 having the through hole 1a, and is screwed into the close contact portion 1b. By tightening or loosening the joint, a throttle body 2 is provided that increases or decreases the degree of adhesion with the side surface portion Ta of the processing tool T, and further, the work surface of the workpiece W at the tip of the throttle body 2 It is assumed that a contact body 3 with Wa is provided.

また、この発明の加工度合調整具は、貫通孔１ａを有する本体１の前後部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、これら密着部１ｂに螺合し、その螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設け、さらに前記絞り体２の一方の先端に被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   Further, the processing degree adjusting tool of the present invention is provided with a close contact portion 1b to the side surface portion Ta of the processing tool T at the front and rear portions of the main body 1 having the through hole 1a, and is screwed into these close contact portions 1b. By tightening or loosening the joint, there is provided a throttle body 2 that increases or decreases the degree of adhesion to the side surface portion Ta of the processing tool T, and further, the workpiece W is covered at one end of the throttle body 2. It is assumed that a contact body 3 with the processing surface Wa is provided.

そして、この発明の加工度合調整具は、前記本体１に摘み部４を設けたものとすることができる。   And the processing degree adjustment tool of this invention shall be provided with the knob | pick part 4 in the said main body 1. FIG.

さらに、この発明の加工度合調整具は、前記摘み部４に貫通孔４ａを設け、この貫通孔４ａに止めネジ４ｂを螺合したものとしている。   Further, in the processing degree adjuster of the present invention, the knob 4 is provided with a through hole 4a, and a set screw 4b is screwed into the through hole 4a.

この発明の加工度合調整具は、以上に述べたように構成されているので、加工具で孔穿けやネジ切り等をする場合、機器具本体の加工具を別のものに取り替える場合、孔穿け、ネジ切り等の加工度合いを特に調整する必要がない場合等にも邪魔にならないものとなった。   Since the processing degree adjusting tool of the present invention is configured as described above, when drilling or threading with the processing tool, when replacing the processing tool of the device tool main body with another tool, Even when there is no need to particularly adjust the degree of processing such as threading, it has become unobtrusive.

以下、この発明の加工度合調整具を実施するための最良の形態を、図面に基づいて詳細に説明する。   Hereinafter, the best mode for carrying out the working degree adjuster of the present invention will be described in detail with reference to the drawings.

この発明の加工度合調整具は、電動工具や空圧工具等の自動回転工具（図示せず）に取付けられたドリルやドライバー等の加工具Ｔの側面部Ｔａに装着されるようにしている。図１〜３に示したものでは、貫通孔１ａを有する本体１の後部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、この密着部１ｂに螺合し、その螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設けたものとしている。そして、前記本体１の先端には、被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   The processing degree adjusting tool of the present invention is attached to a side surface portion Ta of a processing tool T such as a drill or a driver attached to an automatic rotating tool (not shown) such as an electric tool or a pneumatic tool. 1 to 3, a rear portion of the main body 1 having the through hole 1 a is provided with a close contact portion 1 b to the side surface portion Ta of the processing tool T, and is screwed into the close contact portion 1 b. By tightening or loosening, the aperture body 2 is provided that increases or decreases the degree of adhesion with the side surface portion Ta of the processing tool T. And the contact body 3 with the to-be-processed surface Wa of the workpiece W is provided in the front-end | tip of the said main body 1. As shown in FIG.

さらに、この発明の加工度合調整具は、図６〜８に示したものでは、貫通孔１ａを有する本体１の前部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、この密着部１ｂに螺合し、その螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設けたものとしている。そして、前記絞り体２の先端には、被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   Further, in the processing degree adjusting tool of the present invention shown in FIGS. 6 to 8, the front portion of the main body 1 having the through hole 1 a is provided with a close contact portion 1 b to the side surface portion Ta of the processing tool T, and this It is assumed that a throttle body 2 is provided that is screwed into the close contact portion 1b and tightened or loosened to tighten or loosen the close contact degree with the side surface portion Ta of the processing tool T. A contact body 3 with the work surface Wa of the work W is provided at the tip of the drawing body 2.

また、この発明の加工度合調整具は、図１１〜１３に示したものでは、貫通孔１ａを有する本体１の前後部に、加工具Ｔの側面部Ｔａへの密着部１ｂを設けると共に、これら密着部１ｂに螺合し、それらの螺合を締め付けたり緩めたりすることによって、加工具Ｔの側面部Ｔａとの密着度を強めたり、弱めたりする絞り体２を設けたものとしている。そして、前記前部側の絞り体２の一方の先端には、被加工物Ｗの被加工面Ｗａとの当接体３を設けたものとしている。   Further, in the processing degree adjusting tool of the present invention, the one shown in FIGS. 11 to 13 is provided with a close contact portion 1b to the side surface portion Ta of the processing tool T on the front and rear portions of the main body 1 having the through hole 1a. It is assumed that a throttle body 2 is provided that is screwed into the close contact portion 1b and tightens or loosens these screws to increase or decrease the close contact with the side surface portion Ta of the processing tool T. Then, a contact body 3 with the workpiece surface Wa of the workpiece W is provided at one end of the front-side diaphragm 2.

前記本体１は、金属製の円筒管からなり、図１〜３および図１１〜１３に示したものでは、その円筒管の中間に摘み部４を設けたものとし、図６〜８に示したものでは、その円筒管の後端に摘み部４を設けたものとしている。この摘み部４の外面は、図示していないが、梨地加工やローレット加工等の滑り止め加工を施したものとすることができる。さらに、図６〜８に示したものでは、摘み部４の上下または両側面の対向位置または上下両側面の対向位置に貫通孔４ａを設け、この貫通孔４ａに止めネジ４ｂを螺合したものとしている。そして、図１〜３および図６〜８に示したものでは、摘み部４の前側または後側に前記密着部１ｂを配置したものとし、図１１〜１３に示したものでは、摘み部４の前後側に前記密着部１ｂを配置したものとしている。前記密着部１ｂは、基端外周にネジ溝５を形成し、先端外周にテーパ面６を設けたものとし、内周を加工具Ｔの側面部Ｔに沿う曲面としており、長さ方向に複数本（図示したものでは四本）のスリット７を等間隔に設けたものとしている。なお、図１１〜１３に示したように、前記密着部１ｂを円筒管の前後部に設けたものでは、ドリルやドライバー等の加工具Ｔの側面部Ｔａの形状に応じて前記スリット７の幅を変えることができる。例えば、ギムネと呼ばれる加工具Ｔのように先細りになっているような場合には、加工具Ｔの側面部Ｔａの形状が先端に向かってテーパ形状となっているので、図示したように、前記円筒管の前後部に設けた密着部１ｂのうち、前部側に設けたスリット７の幅を広くし、後部側に設けたスリット７の幅を狭くし、絞り体２による絞りの程度を調整することができる。   The main body 1 is made of a metal cylindrical tube. In the case shown in FIGS. 1 to 3 and FIGS. 11 to 13, the knob 4 is provided in the middle of the cylindrical tube, and shown in FIGS. In the thing, the knob | pick part 4 shall be provided in the rear end of the cylindrical tube. Although the outer surface of the knob 4 is not shown, it can be subjected to anti-slip processing such as satin processing or knurling. Further, in the case shown in FIGS. 6 to 8, a through hole 4a is provided at a position facing the top and bottom or both side surfaces of the knob 4 or a position facing both top and bottom side surfaces, and a set screw 4b is screwed into the through hole 4a. It is said. And in what was shown in FIGS. 1-3 and FIGS. 6-8, the said close_contact | adherence part 1b shall be arrange | positioned in the front side or the rear side of the knob | pick part 4, and in what was shown in FIGS. The contact portion 1b is disposed on the front and rear sides. The close contact portion 1b is formed with a screw groove 5 on the outer periphery of the base end and a tapered surface 6 on the outer periphery of the tip, and the inner periphery is a curved surface along the side surface portion T of the processing tool T. It is assumed that four (in the illustrated case) slits 7 are provided at equal intervals. In addition, as shown in FIGS. 11-13, in the thing which provided the said contact part 1b in the front-and-back part of a cylindrical tube, the width | variety of the said slit 7 according to the shape of side part Ta of the processing tools T, such as a drill and a driver. Can be changed. For example, in the case of tapering like a processing tool T called “Gimune”, the shape of the side surface portion Ta of the processing tool T is tapered toward the tip. Of the close contact portions 1b provided at the front and rear portions of the cylindrical tube, the width of the slit 7 provided on the front side is widened, the width of the slit 7 provided on the rear side is narrowed, and the degree of restriction by the diaphragm 2 is adjusted. can do.

前記絞り体２は、金属製の円筒管からなり、外面には図示していないが、梨地加工やローレット加工等の滑り止め加工を施したものとすることができる。そして、この絞り体２は、円筒管の先端を除く内周にはネジ溝２ａが形成され、先端内周にテーパ面８を設けたものとしており、前記本体１の密着部１ｂの外周のネジ溝５に螺合させ、その螺合を締め付けたり緩めたりすることにより、密着部１ｂの先端外周のテーパ面６が絞り体２の先端内周のテーパ面８に当たって狭められたり、前記テーパ面６とテーパ面８とが当たらないようにして広げられたりして、この密着部１ｂの加工具Ｔの側面部Ｔａへの密着度を強めたり、弱めたりするものとしている。   The diaphragm 2 is made of a metal cylindrical tube, and although not shown on the outer surface, it can be subjected to anti-slip processing such as satin processing or knurling. The throttle body 2 is formed with a thread groove 2a on the inner periphery excluding the tip of the cylindrical tube and provided with a tapered surface 8 on the inner periphery of the tip. By screwing into the groove 5 and tightening or loosening the screwing, the outer peripheral taper surface 6 of the close contact portion 1b is brought into contact with the tapered surface 8 of the inner periphery of the throttle body 2 to be narrowed, or the tapered surface 6 And the taper surface 8 are spread so that they do not contact each other, and the degree of adhesion of the contact portion 1b to the side surface portion Ta of the processing tool T is increased or decreased.

前記当接体３は、金属製の円筒管からなり、その円筒管の内周にはリング溝３ａが形成され、円筒管の先端を被加工物Ｗの被加工面Ｗａとの当接面３ｂとしている。この当接体３は、図１〜３に示したものでは、本体１の先端外周に形成したリング溝１ｃと前記リング溝３ａとの間にＣリング９を介在させて、回転自在に取り付けられており、図６〜８に示したものでは、絞り体２の先端外周に形成したリング溝２ｂと前記リング溝３ａとの間にＣリング９を介在させて、回転自在に取り付けられており、図１１〜１３に示したものでは、前部側の絞り体２の先端外周に形成したリング溝２ｂと前記リング溝３ａとの間にＣリング９を介在させて、回転自在に取り付けられている。なお、前記当接体３は、円筒管の先端内部に内フランジ１０を設けることにより、孔穿けやネジ切りで発生したキリ粉等が、本体１の貫通孔１ａや絞り体２の先端内部などに入り込むのを防止するようにしている。   The contact body 3 is made of a metal cylindrical tube, and a ring groove 3a is formed on the inner periphery of the cylindrical tube. The contact surface 3b of the end of the cylindrical tube with the processing surface Wa of the workpiece W is formed. It is said. 1 to 3, the abutment body 3 is rotatably mounted with a C-ring 9 interposed between the ring groove 1c formed on the outer periphery of the front end of the main body 1 and the ring groove 3a. 6 to 8, the ring groove 2b formed on the outer periphery of the distal end of the diaphragm 2 and the ring groove 3a are interposed between the ring grooves 3a so as to be freely rotatable. 11 to 13, the ring groove 2b formed on the outer periphery of the front end of the diaphragm 2 on the front side and the ring groove 3a are interposed between the ring groove 3a so as to be rotatably mounted. . The abutment body 3 is provided with an inner flange 10 inside the tip of the cylindrical tube, so that the dust generated by drilling or threading can be removed from the through-hole 1a of the main body 1, the inside of the tip of the throttle body 2, etc. I try to prevent it from getting in.

以上のように構成したこの発明の加工度合調整具は、図１〜３に示したものでは、加工具Ｔの側面部Ｔａに差し込み、被加工物Ｗの被加工面Ｗａを加工したい分だけ加工具Ｔの先端部を突出させ、本体１の摘み部４を片手の指で摘み、絞り体２をもう片手の指で締め付けると、密着部１ｂの先端外周のテーパ面６が絞り体２の先端内周のテーパ面８に当たって狭められ、この密着部１ｂの加工具Ｔの側面部Ｔａへの密着度が強められる。このようにすれば、この発明の加工度合調整具は、図４に示したように、加工具Ｔの側面部Ｔａに固定された状態となる。そこで、自動回転工具（図示せず）のスイッチを入れて加工具Ｔを作動させ、被加工物Ｗの被加工面Ｗａを加工して行けば、図５に示したように、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たった時点でそれ以上加工できなくなるので、加工具Ｔによる被加工物Ｗの加工度合を調整することができる。なお、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たると、当接体３が回転して被加工物Ｗの被加工面Ｗａに傷を付けないようにすると共に、この当接体３の回転によって、加工が終了したことを確認することができる。   The processing degree adjuster of the present invention configured as described above is inserted into the side surface portion Ta of the processing tool T in the one shown in FIGS. 1 to 3, and the processing surface Wa of the workpiece W is added by the amount desired to be processed. When the tip of the tool T is projected, the knob 4 of the main body 1 is picked with the finger of one hand, and the throttle body 2 is tightened with the finger of the other hand, the tapered surface 6 on the outer periphery of the tip of the contact portion 1b is the tip of the throttle body 2. The contact surface 1b is narrowed by hitting the inner peripheral tapered surface 8, and the degree of adhesion of the contact portion 1b to the side surface portion Ta of the processing tool T is increased. If it does in this way, the processing degree adjustment tool of this invention will be in the state fixed to side part Ta of processing tool T, as shown in FIG. Therefore, if the automatic tool (not shown) is turned on to operate the processing tool T to process the workpiece surface Wa of the workpiece W, as shown in FIG. When the abutment surface 3b comes into contact with the workpiece surface Wa of the workpiece W, it can no longer be processed, and the degree of processing of the workpiece W by the processing tool T can be adjusted. In addition, when the contact surface 3b of the contact body 3 hits the workpiece surface Wa of the workpiece W, the contact body 3 rotates to prevent the workpiece surface Wa of the workpiece W from being damaged. The rotation of the contact body 3 can confirm that the processing has been completed.

さらに、この発明の加工度合調整具は、図６〜８に示したものでは、加工具Ｔの側面部Ｔａに差し込み、被加工物Ｗの被加工面Ｗａを加工したい分だけ加工具Ｔの先端部を突出させ、本体１の摘み部４を片手の指で摘み、絞り体２をもう片手の指で締め付けると、密着部１ｂの先端外周のテーパ面６が絞り体２の先端内周のテーパ面８に当たって狭められ、この密着部１ｂの加工具Ｔの側面部Ｔａへの密着度が強められる。さらに、摘み部４の貫通孔４ａに螺合した止めネジ４ｂを締め付けることにより、この止めネジ４ｂで加工具Ｔの側面部Ｔａを押圧する。このようにすれば、この発明の加工度合調整具は、図９に示したように、加工具Ｔの側面部Ｔａに固定された状態となる。そこで、自動回転工具（図示せず）のスイッチを入れて加工具Ｔを作動させ、被加工物Ｗの被加工面Ｗａを加工して行けば、図１０に示したように、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たった時点でそれ以上加工できなくなるので、加工具Ｔによる被加工物Ｗの加工度合を調整することができる。なお、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たると、当接体３が回転して被加工物Ｗの被加工面Ｗａに傷を付けないようにすると共に、この当接体３の回転によって、加工が終了したことを確認することができる。   Further, in the processing degree adjusting tool of the present invention shown in FIGS. 6 to 8, the tip of the processing tool T is inserted into the side surface portion Ta of the processing tool T and the processing surface Wa of the processing object W is to be processed. When the gripping portion 4 of the main body 1 is picked up with a finger of one hand and the diaphragm 2 is tightened with the finger of the other hand, the tapered surface 6 on the outer periphery of the tip of the contact portion 1b is a taper on the inner periphery of the tip of the diaphragm 2. The contact is narrowed by hitting the surface 8, and the degree of adhesion of the contact portion 1b to the side surface portion Ta of the processing tool T is increased. Further, by tightening a set screw 4b screwed into the through hole 4a of the knob 4, the side face Ta of the processing tool T is pressed with the set screw 4b. If it does in this way, the processing degree adjustment tool of this invention will be in the state fixed to side part Ta of the processing tool T, as shown in FIG. Therefore, if the automatic tool (not shown) is turned on to operate the processing tool T to process the workpiece surface Wa of the workpiece W, as shown in FIG. When the abutment surface 3b comes into contact with the workpiece surface Wa of the workpiece W, it can no longer be processed, and the degree of processing of the workpiece W by the processing tool T can be adjusted. In addition, when the contact surface 3b of the contact body 3 hits the workpiece surface Wa of the workpiece W, the contact body 3 rotates to prevent the workpiece surface Wa of the workpiece W from being damaged. The rotation of the contact body 3 can confirm that the processing has been completed.

また、この発明の加工度合調整具は、図１１〜１３に示したものでは、加工具Ｔの側面部Ｔａに差し込み、被加工物Ｗの被加工面Ｗａを加工したい分だけ加工具Ｔの先端部を突出させ、本体１の摘み部４を片手の指で摘み、両側の絞り体２をもう片手の指で締め付けると、密着部１ｂの先端外周のテーパ面６が絞り体２の先端内周のテーパ面８に当たって狭められ、密着部１ｂの加工具Ｔの側面部Ｔａへの密着度が強められる。このようにすれば、この発明の加工度合調整具は、図１４に示したように、加工具Ｔの側面部Ｔａに固定された状態となる。そこで、自動回転工具（図示せず）のスイッチを入れて加工具Ｔを作動させ、被加工物Ｗの被加工面Ｗａを加工して行けば、図１５に示したように、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たった時点でそれ以上加工できなくなるので、加工具Ｔによる被加工物Ｗの加工度合を調整することができる。なお、当接体３の当接面３ｂが被加工物Ｗの被加工面Ｗａに当たると、当接体３が回転して被加工物Ｗの被加工面Ｗａに傷を付けないようにすると共に、この当接体３の回転によって、加工が終了したことを確認することができる。   11 to 13, the processing degree adjusting tool of the present invention is inserted into the side surface portion Ta of the processing tool T, and the tip of the processing tool T is as much as the processing surface Wa of the processing object W is desired to be processed. When the gripping portion 4 of the main body 1 is picked up with a finger of one hand and the diaphragms 2 on both sides are tightened with the fingers of the other hand, the taper surface 6 on the outer periphery of the tip of the contact portion 1b is the inner periphery of the tip of the diaphragm 2 The degree of contact of the contact portion 1b with the side surface portion Ta of the processing tool T is increased. If it does in this way, the processing degree adjustment tool of this invention will be in the state fixed to side part Ta of processing tool T, as shown in FIG. Therefore, when the automatic tool (not shown) is turned on to operate the processing tool T to process the processing surface Wa of the workpiece W, as shown in FIG. When the abutment surface 3b comes into contact with the workpiece surface Wa of the workpiece W, it can no longer be processed, and the degree of processing of the workpiece W by the processing tool T can be adjusted. In addition, when the contact surface 3b of the contact body 3 hits the workpiece surface Wa of the workpiece W, the contact body 3 rotates to prevent the workpiece surface Wa of the workpiece W from being damaged. The rotation of the contact body 3 can confirm that the processing has been completed.

この発明の加工度合調整具の第一実施形態の側面図である。It is a side view of 1st embodiment of the processing degree adjustment tool of this invention. 図１中のＡ−Ａ線によるこの発明の加工度合調整具の断面図である。It is sectional drawing of the processing degree adjustment tool of this invention by the AA line in FIG. 図１に示すこの発明の加工度合調整具の本体の平面図である。It is a top view of the main body of the processing degree adjustment tool of this invention shown in FIG. 図１に示すこの発明の加工度合調整具を加工具に装着した状態の断面図である。It is sectional drawing of the state which mounted | wore the processing tool with the processing degree adjustment tool of this invention shown in FIG. 図１に示すこの発明の加工度合調整具の使用状態の説明図である。It is explanatory drawing of the use condition of the processing degree adjustment tool of this invention shown in FIG. この発明の加工度合調整具の第二実施形態の側面図である。It is a side view of 2nd embodiment of the processing degree adjustment tool of this invention. 図６中のＢ−Ｂ線によるこの発明の加工度合調整具の断面図である。It is sectional drawing of the processing degree adjustment tool of this invention by the BB line in FIG. 図６に示すこの発明の加工度合調整具の本体の平面図である。It is a top view of the main body of the processing degree adjustment tool of this invention shown in FIG. 図６に示すこの発明の加工度合調整具を加工具に装着した状態の断面図である。It is sectional drawing of the state which mounted | wore the processing tool with the processing degree adjustment tool of this invention shown in FIG. 図６に示すこの発明の加工度合調整具の使用状態の説明図である。It is explanatory drawing of the use condition of the processing degree adjustment tool of this invention shown in FIG. この発明の加工度合調整具の第三実施形態の側面図である。It is a side view of 3rd embodiment of the processing degree adjustment tool of this invention. 図１１中のＣ−Ｃ線によるこの発明の加工度合調整具の断面図である。It is sectional drawing of the processing degree adjustment tool of this invention by CC line in FIG. 図１１に示すこの発明の加工度合調整具の本体の平面図である。It is a top view of the main body of the processing degree adjustment tool of this invention shown in FIG. 図１１に示すこの発明の加工度合調整具を加工具に装着した状態の断面図である。It is sectional drawing of the state which mounted | wore the processing tool with the processing degree adjustment tool of this invention shown in FIG. 図１１に示すこの発明の加工度合調整具の使用状態の説明図である。It is explanatory drawing of the use condition of the processing degree adjustment tool of this invention shown in FIG. 従来の加工度合調整具を装着した機器具の要部断面図である。It is principal part sectional drawing of the instrument with which the conventional process degree adjustment tool was mounted | worn.

符号の説明Explanation of symbols

１ 本体
１ａ 貫通孔
１ｂ 密着部
２ 絞り体
３ 当接体
４ 摘み部
４ａ 貫通孔
４ｂ 止めネジ
Ｔ 加工具
Ｔａ 側面部
Ｗ 被加工物
Ｗａ 被加工面
DESCRIPTION OF SYMBOLS 1 Main body 1a Through-hole 1b Close_contact | adherence part 2 Diaphragm | restriction body 3 Contact body 4 Knob part 4a Through-hole 4b Set screw T Processing tool Ta Side part W Workpiece Wa Work surface

Claims (5)

貫通孔（１ａ）を有する本体（１）の後部に、加工具（Ｔ）の側面部（Ｔａ）への密着部（１ｂ）を設けると共に、この密着部（１ｂ）に螺合し、その螺合を締め付けたり緩めたりすることによって、加工具（Ｔ）の側面部（Ｔａ）との密着度を強めたり、弱めたりする絞り体（２）を設け、さらに前記本体（１）の先端に被加工物（Ｗ）の被加工面（Ｗａ）との当接体（３）を設けたことを特徴とする加工度合調整具。   In the rear part of the main body (1) having the through hole (1a), a close contact portion (1b) to the side surface portion (Ta) of the processing tool (T) is provided and screwed into the close contact portion (1b). By tightening or loosening the joint, there is provided a throttle body (2) that increases or decreases the degree of adhesion to the side surface portion (Ta) of the processing tool (T), and further, the tip of the main body (1) is covered. A processing degree adjusting tool provided with a contact body (3) with a work surface (Wa) of a workpiece (W). 貫通孔（１ａ）を有する本体（１）の前部に、加工具（Ｔ）の側面部（Ｔａ）への密着部（１ｂ）を設けると共に、この密着部（１ｂ）に螺合し、その螺合を締め付けたり緩めたりすることによって、加工具（Ｔ）の側面部（Ｔａ）との密着度を強めたり、弱めたりする絞り体（２）を設け、さらに前記絞り体（２）の先端に被加工物（Ｗ）の被加工面（Ｗａ）との当接体（３）を設けたことを特徴とする加工度合調整具。   At the front part of the main body (1) having the through hole (1a), a close contact portion (1b) to the side surface portion (Ta) of the processing tool (T) is provided, and the close contact portion (1b) is screwed. A tightening body (2) is provided that tightens or loosens the screw to increase or decrease the degree of adhesion to the side surface (Ta) of the processing tool (T), and further, the tip of the restricting body (2) A working degree adjuster characterized in that a contact body (3) with the work surface (Wa) of the work piece (W) is provided on the work piece. 貫通孔（１ａ）を有する本体（１）の前後部に、加工具（Ｔ）の側面部（Ｔａ）への密着部（１ｂ）を設けると共に、これら密着部（１ｂ）に螺合し、それらの螺合を締め付けたり緩めたりすることによって、加工具（Ｔ）の側面部（Ｔａ）との密着度を強めたり、弱めたりする絞り体（２）を設け、さらに前記前部側の絞り体（２）の先端に被加工物（Ｗ）の被加工面（Ｗａ）との当接体３を設けたことを特徴とする加工度合調整具。   The front and rear portions of the main body (1) having the through hole (1a) are provided with a close contact portion (1b) to the side surface portion (Ta) of the processing tool (T), and are screwed into these close contact portions (1b). A throttle body (2) is provided that tightens or loosens the screw to increase or decrease the degree of adhesion with the side surface portion (Ta) of the processing tool (T), and further, the front-side throttle body (2) A processing degree adjuster characterized in that a contact body (3) with a processing surface (Wa) of a workpiece (W) is provided at the tip of (2). 前記本体（１）に摘み部（４）を設けたことを特徴とする請求項１〜３に何れかに記載の加工度合調整具。   The processing degree adjuster according to any one of claims 1 to 3, wherein the main body (1) is provided with a knob (4). 前記摘み部（４）に貫通孔（４ａ）を設け、この貫通孔（４ａ）に止めネジ（４ｂ）を螺合したことを特徴とする請求項４に記載の加工度合調整具。
The processing degree adjuster according to claim 4, wherein a through hole (4a) is provided in the knob portion (4), and a set screw (4b) is screwed into the through hole (4a).