JP3205262U - End polishing machine - Google Patents

End polishing machine Download PDF

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JP3205262U
JP3205262U JP2016002025U JP2016002025U JP3205262U JP 3205262 U JP3205262 U JP 3205262U JP 2016002025 U JP2016002025 U JP 2016002025U JP 2016002025 U JP2016002025 U JP 2016002025U JP 3205262 U JP3205262 U JP 3205262U
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bar
chuck
recess
central axis
holding means
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飯野 英城
英城 飯野
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Abstract

【課題】棒材端面を研磨する端面研磨装置について、棒材保持手段に対する棒材の着脱作業を含め作業工程の自動化を進めて作業者の手間をさらに軽減する。【解決手段】棒材保持部3に縦向きに装着した円柱状の棒材100下端面をモータ駆動の円形砥石上面に押圧しながら研磨する端面研磨装置において、棒材保持部3を、底面から円錐状に切り欠いた形状で開口部内径が棒材100の外径よりも大きな凹部3331を形成した受け部材330cと凹部3331の中心軸延長線に中心軸線が一致するように棒材保持部3下方に配置したチャック33とを備え、チャック33下方から棒材100を挿通し上端側を凹部3331内面に押圧することで棒材100上端側が傾斜した内面で案内されて凹部3331の中心軸線に棒材100上端の中心が一致して停止し、チャック33を閉じることで棒材100の中心軸線が棒材保持部3の中心軸線に一致した状態で装着されるものとした。【選択図】図6An object of the present invention is to further reduce the labor of an operator by automating a work process including an attaching / detaching work of a bar with respect to a bar holding means for an end face polishing apparatus for polishing a bar end face. In an end face polishing apparatus that polishes while pressing a lower end surface of a cylindrical bar 100 mounted vertically on a bar holding unit 3 against the upper surface of a motor-driven circular grindstone, the bar holding unit 3 is moved from the bottom surface. A bar member holding portion 3 having a conical cut-out shape and having a recess 3331 in which the inner diameter of the opening is larger than the outer diameter of the rod 100 and the central axis of the receiving member 330c coincides with the central axis extension of the recess 3331. A chuck 33 disposed below, and the rod 100 is inserted from below the chuck 33 and the upper end side is pressed against the inner surface of the recess 3331 so that the upper end side of the rod 100 is guided by the inclined inner surface and the rod is aligned with the central axis of the recess 3331. It is assumed that the center of the bar 100 is stopped in alignment with the center, and the chuck 33 is closed so that the center axis of the bar 100 is aligned with the center axis of the bar holder 3. [Selection] Figure 6

Description

本考案は、円柱状の棒材の端面を自動的に研磨する端面研磨装置に関する。   The present invention relates to an end surface polishing apparatus that automatically polishes an end surface of a cylindrical bar.

鋼管等の長尺の棒材を切断装置で所定の長さに切り揃える場合、切断後の端面はバリが出て粗くなっているのが通常であり、次の工程でその端面を端面研磨装置で研磨して平滑に仕上げる必要がある。また、棒材切断装置で目的長よりも僅かに長く切断した棒材を、精密制御による研磨工程で正確な長さに仕上げることも行われている。   When a long rod such as a steel pipe is cut to a predetermined length with a cutting device, the end face after cutting is usually roughened with burrs, and the end face is polished in the next step. It is necessary to polish it with a smooth finish. In addition, a rod cut by a rod cutting device slightly longer than the target length is finished to an accurate length by a polishing process by precision control.

斯かる端面研磨装置には、例えば特開平6−23660号公報に記載されているように、研磨工程の一部を自動化したものが知られており、また、特開2002−113654号公報には、砥石等の研磨部材の交換作業を自動的に行うものも提案されており、これらの機能で作業者の手間を大きく軽減することが可能となる   As such an end surface polishing apparatus, for example, as described in Japanese Patent Application Laid-Open No. 6-23660, a device in which a part of the polishing process is automated is known, and in Japanese Patent Application Laid-Open No. 2002-113654, In addition, there has been proposed one that automatically replaces a polishing member such as a grindstone, and it is possible to greatly reduce the labor of the operator by these functions.

ところが、研磨工程の大部分を自動化した前述の端面研磨装置においても、ワークを保持手段に対して着脱する作業自体は殆ど自動化されていないのが現状である。これは、ワーク装着時に保持手段の中心軸線に対しワークの中心軸線が僅かでもずれて固定された場合、端面の仕上がり精度が顕著に低下してしまうことから、この部分は人手に頼らざるを得ない状況であることによる。   However, even in the above-described end surface polishing apparatus in which most of the polishing process is automated, the work itself for attaching and detaching the workpiece to and from the holding means is hardly automated. This is because, when the work center axis is fixed with a slight deviation from the center axis of the holding means when the work is mounted, the finish accuracy of the end face is significantly lowered, and this part must be relied on manually. Because there is no situation.

また、研磨部材の消耗については、前述した装置のようにこれを自動的に取り替えて対処する方式のほか、砥石の表面をドレッサーで平滑化して継続的に使用可能とする方式も知られている。この場合もドレッサー使用時期の判断は作業者によるものであるためマニュアル操作に頼っているのが現状であるが、この対処時期の判定を含めて総て自動的に行えるようになれば、作業者の手間をさらに軽減することができる。   As for the wear of the polishing member, in addition to a method of automatically replacing this as in the above-described apparatus, a method of smoothing the surface of the grindstone with a dresser and making it usable continuously is also known. . In this case as well, it is up to the operator to determine when to use the dresser, so it currently relies on manual operation. Can be further reduced.

特開平6−23660号公報Japanese Patent Laid-Open No. 6-23660 特開2002−113654号公報JP 2002-113654 A

本考案は、上記のような問題を解決しようとするものであり、円柱状の棒材の端面を研磨する端面研磨装置について、棒材保持手段に対する棒材の着脱作業を含め作業工程の自動化を一層進めて、作業者の手間をさらに軽減できるようにすることを課題とする。   The present invention is intended to solve the above-described problems. For an end surface polishing apparatus that polishes an end surface of a cylindrical bar material, the work process is automated, including the work of attaching and detaching the bar material to and from the bar material holding means. It is an object to make further progress so that the labor of the operator can be further reduced.

そこで、本考案は、棒材保持手段に対し下方から縦向きに装着した円柱状の棒材の下端面を、モータ駆動で回転している円形砥石の上面に自動的に押圧しながら研磨する端面研磨装置において、前記棒材保持手段は、底面から円錐状または半球状に切り欠いた形状で開口部内径が前記棒材の外径よりも大きな凹部を形成してなる受け部材と、前記凹部の中心軸延長線に中心軸線が一致するように前記棒材保持手段の下方に配置したチャックとを備えており、このチャックの下方から棒材を挿通しその上端側を受け部材の凹部内面に押圧することにより、棒材上端側が傾斜した内面で案内されて凹部の中心軸線に棒材上端の中心が一致した状態で停止し、チャックを閉じることで棒材の中心軸線が前記棒材保持手段の中心軸線に一致した状態で装着が完了する、ことを特徴とするものとした。   Therefore, the present invention provides an end face for polishing while automatically pressing the lower end face of a cylindrical bar attached vertically to the bar holding means against the upper face of a circular grindstone rotating by a motor drive. In the polishing apparatus, the bar holding means includes a receiving member formed by forming a recess having a conical or hemispherical shape cut out from the bottom surface and having an inner diameter of the opening larger than the outer diameter of the bar. A chuck disposed below the bar holding means so that the center axis coincides with the center axis extension line, and a bar is inserted from below the chuck to press the upper end side against the inner surface of the recess of the member. By doing so, the upper end side of the bar is guided with the inclined inner surface and stopped in a state where the center of the upper end of the bar coincides with the central axis of the recess, and the central axis of the bar is lowered by closing the chuck. In line with the central axis Wear is completed, and shall be characterized in that.

このように、研磨対象である棒材の上端側を円錐状又は半円状に切り欠いた凹部に押圧することで、その円形の端面中心部分が凹部の中心軸線に一致するように案内され、この状態で凹部の下方に配置したチャックを閉じて棒材の中心軸線が棒材保持手段の中心軸線に一致するものとして、人手に頼らなくてもロボットハンド等の移送手段を用いて棒材保持手段に棒材を正確に装着することができる。   In this way, by pressing the upper end side of the bar to be polished against the recess cut out in a conical or semicircular shape, the circular end face center portion is guided so as to coincide with the center axis of the recess, In this state, the chuck disposed below the concave portion is closed, and the center axis of the bar coincides with the center axis of the bar holding means, so that the bar holding can be performed using a transfer means such as a robot hand without relying on human hands. The bar can be accurately mounted on the means.

また、この場合、前記受け部材は、棒材保持手段の中心軸線に沿った上下動作が可能なものとされ、棒材の長さの変動に対応して前記チャックとの距離を変動可能とされていることを特徴としたものとすれば、ワークの長さが変動する場合であっても適切な位置にて保持できるものとなる。   Further, in this case, the receiving member can be moved up and down along the central axis of the bar holding means, and the distance from the chuck can be changed corresponding to the fluctuation of the length of the bar. If it is characterized by this, even if the length of the work fluctuates, it can be held at an appropriate position.

棒材上端側を棒材保持手段の受け部材に押圧することでその中心を凹部の中心軸線に一致させ、その下方のチャックを閉じることで棒材の中心軸線を棒材保持手段の中心軸線に一致させて装着するものとした本考案によると、棒材保持手段に対する棒材の着脱作業を含めて作業工程の自動化を大きく進めることができ、作業者の手間をさらに軽減可能なものとなる。   The center of the bar is made the center axis of the bar holding means by pressing the upper end of the bar against the receiving member of the bar holding means so that its center coincides with the center axis of the recess and closing the lower chuck. According to the present invention in which they are attached in a matched manner, the work process including the attaching / detaching work of the bar with respect to the bar holding means can be greatly automated, and the labor of the operator can be further reduced.

(A)は本考案における実施の形態の正面図、(B)は(A)の右側面図である。(A) is the front view of embodiment in this invention, (B) is a right view of (A). (A)は図1の端面研磨装置の平面図、(B)は図1(A)のX−X線に沿う断面図である。(A) is a top view of the end surface grinding | polishing apparatus of FIG. 1, (B) is sectional drawing which follows the XX line of FIG. 1 (A). 図(A)のY−Y線に沿う拡大した断面図である。It is sectional drawing expanded along the YY line of figure (A). 図3に示した端面研磨装置の動作を説明するための断面図である。It is sectional drawing for demonstrating operation | movement of the end surface grinding | polishing apparatus shown in FIG. 図4の状態から続いて図3に示した端面研磨装置の動作を説明するための断面図である。FIG. 5 is a cross-sectional view for explaining the operation of the end surface polishing apparatus shown in FIG. 3 following the state of FIG. 4. 図5の状態から続いて図3に示した端面研磨装置の動作を説明するための断面図である。FIG. 6 is a cross-sectional view for explaining the operation of the end surface polishing apparatus shown in FIG. 3 following the state of FIG. 5. 図6の状態から続いて図3に示した端面研磨装置の動作を説明するための断面図である。FIG. 7 is a cross-sectional view for explaining the operation of the end surface polishing apparatus shown in FIG. 3 following the state of FIG. 6. 図7の状態から続いて図3に示した端面研磨装置の動作を説明するための断面図である。FIG. 8 is a cross-sectional view for explaining the operation of the end surface polishing apparatus shown in FIG. 3 following the state of FIG. 7. 図8の状態から続いて図3に示した端面研磨装置の動作を説明するための断面図である。FIG. 9 is a cross-sectional view for explaining the operation of the end surface polishing apparatus shown in FIG. 3 following the state of FIG. 8. (A)及び(B)は、図1の端面研磨装置におけるドレッシング部の動作を説明するための拡大した部分縦断面図である。(A) And (B) is the expanded partial longitudinal cross-sectional view for demonstrating operation | movement of the dressing part in the end surface grinding | polishing apparatus of FIG.

以下に、図面を参照しながら本考案を実施するための形態を説明する。尚、以下の説明及び参照する各図において、考案の技術的特徴と関連性の薄い部分である配線、研磨作業用の水供給手段等については記載・表示を簡略化または省略するものとする。また、本考案において、棒材には空洞部のない柱状の部材のほか、空洞部のある筒状の部材(管材)も含まれる。   Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. In the following description and each of the drawings to be referred to, description and display are simplified or omitted for wiring, polishing water supply means, and the like, which are portions that are not closely related to the technical features of the invention. Further, in the present invention, the bar includes not only a columnar member without a hollow portion but also a tubular member (pipe material) having a hollow portion.

図1(A)は、本実施の形態の端面研磨装置1の正面図、(B)はその側面図を示している。この端面研磨装置1は、図示しない棒材切断装置で切断した金属管や樹脂パイプ等の円柱状の棒材100を、チャック33及び受け部材3331(図3参照)による保持手段で垂直に保持しながら、その切断面である下端面をモータ25,26で回転している円形砥石22,23の上面にロボシリンダ31の駆動力で押圧して研磨するものであり、棒材100端面のバリを切除して滑らかにしたり、その長さを正確に仕上げたりするために用いられる。   FIG. 1A is a front view of the end surface polishing apparatus 1 according to the present embodiment, and FIG. 1B is a side view thereof. This end surface polishing apparatus 1 vertically holds a cylindrical rod 100 such as a metal tube or a resin pipe cut by a rod cutting device (not shown) by a holding means using a chuck 33 and a receiving member 3331 (see FIG. 3). However, the lower end surface, which is the cut surface, is polished by pressing the upper surface of the circular grindstones 22, 23 rotated by the motors 25, 26 with the driving force of the ROBO Cylinder 31. Used to cut and smooth or to finish the length accurately.

斯かる端面研磨装置1は、上面を上向きにして並んで配置されてモータ25,26で回転駆動する円形砥石22,23を備えた研磨部2と、棒材100を垂直の状態で保持するとともに保持した棒材100を上下・左右に移送する機能を備えた棒材保持部3と、円形砥石22,23のドレッシング作業を行う砥石ドレッシング部4と、棒材100を垂直に支持して棒材保持部3との間で受け渡しを行う棒材支持部5とを備えており、これら各部における動作は基本的に電子制御装置10による自動制御で行われる。   Such an end surface polishing apparatus 1 holds the bar 100 in a vertical state and the polishing portion 2 provided with circular grindstones 22 and 23 that are arranged side by side with the upper surface facing upward and are rotationally driven by motors 25 and 26. A bar holding part 3 having a function of moving the held bar 100 up and down, left and right, a grindstone dressing part 4 for performing dressing work of the circular grindstones 22 and 23, and a bar that vertically supports the bar 100. The bar support part 5 which delivers between the holding | maintenance parts 3 is provided, and operation | movement in these each part is performed by the automatic control by the electronic control apparatus 10 fundamentally.

その棒材保持部3は、円形砥石22,23の後方位置から垂直に立ち上がった支持板20上で左右方向に配置されたロボシリンダ21に沿って左右に摺動動作を行うスライダ板30と、そのスライダ板30上に縦向きに配置されたロボシリンダ31に沿って上下に摺動動作を行うスライダ板32とを備えており、スライダ板32の上には、縦向きの保持管330とその下部開口端側で中心軸線が一致する配置のチャック33とが設けられて、これらの中心軸線をその中心軸線とした棒材保持手段を構成しており、これにより棒材100を縦向き(垂直)に保持したまま上下左右に移送することで自動的に作業を行うものとしている。   The bar holding portion 3 includes a slider plate 30 that slides left and right along a robot cylinder 21 that is disposed in the left-right direction on a support plate 20 that rises vertically from the rear position of the circular grindstones 22, 23; The slider plate 32 is provided with a slider plate 32 that slides up and down along the ROBO cylinder 31 that is vertically disposed on the slider plate 30. A chuck 33 is provided on the lower opening end side so that the central axes coincide with each other, and constitutes a bar holding means having these central axes as the central axes, whereby the bar 100 is oriented vertically (vertically). It is assumed that the work is automatically performed by moving it up, down, left, and right while holding it.

また、この図1(A),(B)は、研磨作業開始前の待機状態を示したものであるが、この時点で棒材保持部3は研磨部2の上方右側位置で待機しており、その下方には、図示しないロボットハンド等で移送された棒材100の下端側を挟持して縦向きに支持するチャック351と、これを上下に動作させるロボシリンダ35とを備えた棒材支持部5が配設されている。   FIGS. 1A and 1B show a standby state before starting the polishing operation. At this time, the bar holding unit 3 is waiting at the upper right position of the polishing unit 2. Below that, a bar support provided with a chuck 351 that holds the lower end side of the bar 100 transferred by a robot hand or the like (not shown) and supports it vertically, and a ROBO cylinder 35 that moves it up and down. Part 5 is provided.

さらに、スライダ板30上の保持管330の左側には、縦向きに配置したロボシリンダ41と、これにより上下方向に動作するスライダ板40と、このスライダ板40の下端側で下向きに配置されたドレッサーダイヤモンド等によるドレッサー刃45とを備えて、円形砥石22,23の表面再生作業を自動的に行うためのドレッサー部4が配設されている。また、図1(B)に示すように、チャック33の開閉作業時にその本体側を係止するためのナットランナー333が、後側から前後方向に配設されている。   Further, on the left side of the holding tube 330 on the slider plate 30, the ROBO cylinder 41 arranged vertically, the slider plate 40 operating in the vertical direction thereby, and the lower side of the slider plate 40 are arranged downward. A dresser section 4 is provided which includes a dresser blade 45 made of dresser diamond or the like and automatically performs the surface regeneration work of the circular grindstones 22 and 23. Further, as shown in FIG. 1B, a nut runner 333 for locking the main body side when the chuck 33 is opened and closed is disposed in the front-rear direction from the rear side.

図2(A)を参照して、円形砥石22,23は、研磨面の一部を露出するように平面視並列配置されているが、これらは、荒研ぎ用と仕上げ研ぎ用など、表面荒さの異なる砥石の組み合わせとされて、効率的かつ精度の高い研磨作業が行えるようになっており、ロボシリンダ21の駆動によるスライダ板30の左右動作で棒材100を左右方向に移送することで、使用する砥石を切替えられる配置となっている。   Referring to FIG. 2 (A), the circular grindstones 22 and 23 are arranged in parallel in plan view so as to expose a part of the polished surface, but these are rough surfaces such as for roughing and finishing. The combination of the different grinding wheels enables efficient and highly accurate polishing work. By moving the bar 100 in the left-right direction by the left-right movement of the slider plate 30 by driving the ROBO cylinder 21, It is arranged to switch the grindstone to be used.

図2(B)は、図1(A)におけるX−X方向から見た状態を部分的に拡大して示したものであるが、チャック33は、爪335a,335b,335cを備えて中央部が上下に開口してなる三つ爪式のものであり、その開口部は上方の保持管330(図1参照)の中空部300に繋がっている。また、その左側にはドレッサー部4が配設されているが、そのドレッサー刃45は、棒材保持部3の中心軸線(=保持管330の中心軸線)の左右動作軌道上に配置されている。   2B is a partially enlarged view of the state viewed from the XX direction in FIG. 1A. The chuck 33 includes claws 335a, 335b, and 335c, and a central portion. Is a three-claw type that opens up and down, and the opening is connected to the hollow portion 300 of the upper holding tube 330 (see FIG. 1). In addition, the dresser portion 4 is disposed on the left side, but the dresser blade 45 is disposed on the left and right motion trajectory of the central axis of the bar holding portion 3 (= the central axis of the holding tube 330). .

図3は、図1(A)におけるY−Y線に沿う断面図を拡大して示したものであり、棒材保持部3を中心に断面図にしてその構成の詳細を説明するためのものである。図示のように、棒材保持部3の待機位置においては、その中心軸延長線はその下方に配置した棒材支持部5の中心軸線に一致している。   FIG. 3 is an enlarged cross-sectional view taken along line YY in FIG. 1 (A), and is a cross-sectional view centering on the bar holding portion 3 to explain details of the configuration. It is. As shown in the figure, at the standby position of the bar holding part 3, the central axis extension line coincides with the central axis of the bar support part 5 arranged below.

前述したように、棒材保持部3を構成するチャック33と保持管330は、スライダ板32の上に配置されており、ロボシリンダ31の駆動力で上下に動作するとともに、任意の位置で正確に停止できるようになっている。その保持管330は、下端側が開放した中空部300を有して内部に上下に摺動可能な受け部材330cを有してシリンダ状に構成されており、この受け部材330cがスリムシリンダ330bの駆動力で上下に摺動するものとしている。   As described above, the chuck 33 and the holding tube 330 constituting the bar holding unit 3 are arranged on the slider plate 32, and move up and down by the driving force of the ROBO cylinder 31 and accurately at an arbitrary position. Can be stopped. The holding tube 330 has a hollow portion 300 whose lower end side is open and has a receiving member 330c that can slide up and down inside, and is configured in a cylinder shape. The receiving member 330c drives the slim cylinder 330b. It slides up and down with force.

そして、この受け部材330cの先端側には、底面から円錐状に切り欠いた形状で棒材100の外径よりも大きな開口部内径を有した凹部3331が形成されており、その下方には凹部3331の中心軸延長線に中心軸線が一致する位置でチャック33が配設されており、このチャック33の下方から横断面円形の棒材100を挿通して上端側を受け部材330cの凹部3331内面に押圧することにより、棒材100の上端面が傾斜した内面で案内されて凹部3331の中心軸線にその中心が一致した状態で停止し、チャック33を閉じることで棒材100の中心軸線が棒材保持部3の中心軸線に一致した状態で装着が完了するようになっており、この点が本考案における特徴部分となっている。   A concave portion 3331 having an opening inner diameter larger than the outer diameter of the bar 100 is formed on the distal end side of the receiving member 330c in a conical shape cut from the bottom surface. A chuck 33 is disposed at a position where the center axis line coincides with the center axis extension line of 3331, and a bar 100 having a circular cross section is inserted from below the chuck 33, and the inner surface of the recess 3331 of the receiving member 330c is received at the upper end side. The upper end surface of the bar 100 is guided by the inclined inner surface and stopped in a state where the center thereof coincides with the center axis of the recess 3331. By closing the chuck 33, the center axis of the bar 100 is moved to the bar. The mounting is completed in a state where it matches the central axis of the material holding part 3, and this is a characteristic part of the present invention.

この受け部材330cの凹部3331の切り欠き形状は、図のような円錐状に限らず、深くなるに従い中心軸線に向かって平均的に縮径するものであればよいことから半球状であってもよいが、これよりも外径の小さな棒材100の上端側をチャック33の中央を通過させて保持管330の中空部300に挿入することにより、凹部3331の傾斜面に上端面外周側を摺接しながら、停止位置で上端面の中心が凹部3331の中心軸線を一致するものである。   The notch shape of the concave portion 3331 of the receiving member 330c is not limited to the conical shape as shown in the figure, and may be any hemispherical shape as long as the diameter is reduced toward the central axis as the depth increases. Although the upper end side of the rod 100 having a smaller outer diameter is inserted into the hollow portion 300 of the holding tube 330 through the center of the chuck 33, the outer peripheral side of the upper end surface is slid on the inclined surface of the recess 3331. While in contact, the center of the upper end surface coincides with the central axis of the recess 3331 at the stop position.

そのため、断面円形のワークを閉じ状態でその中心位置で挟持する三つ爪式のチャック33でその下方を保持することにより、円柱状の棒材100の中心軸線が棒材保持部3の中心軸線に正確に一致した状態で装着される。尚、凹部3331の内径は、円柱状の受け部材330cの底面外径とほぼ一致するとともに中空部300の内径に近似していることから、棒材100上端側は凹部3331に進入する際に途中で引っ掛かることは殆どない。   Therefore, by holding a lower part with a three-claw chuck 33 that holds a workpiece having a circular cross section at the center position in a closed state, the center axis of the columnar bar 100 becomes the center axis of the bar holder 3. It is mounted in a state that exactly matches. Since the inner diameter of the recess 3331 substantially matches the outer diameter of the bottom surface of the cylindrical receiving member 330c and approximates the inner diameter of the hollow portion 300, the upper end side of the bar 100 is in the middle when entering the recess 3331. Almost never get caught.

尚、本実施の形態におけるチャック33には、その上部側の回動板33bを本体33aと相対的に回動させるアクチュエータ33cが付設されており、図の位置よりもやや下降させた位置でナットランナー333の係止体333a先端側を、本体33a側面の係止凹部336に挿入してその回動方向の動きを規制しながら、回動板33bを締め方向又は開放方向に回動させることで、各爪335a,335b,335cの開閉動作を行うようになっている。   The chuck 33 according to the present embodiment is provided with an actuator 33c for rotating the upper rotation plate 33b relative to the main body 33a. The nut 33 is slightly lowered from the position shown in the drawing. By inserting the front end side of the locking body 333a of the runner 333 into the locking recess 336 on the side surface of the main body 33a and restricting the movement in the rotation direction, the rotation plate 33b is rotated in the tightening direction or the opening direction. The claws 335a, 335b, and 335c are opened and closed.

以下に、棒材100を棒材保持部3に装着して研磨工程に入るまでの動作について、図4乃至図9を用いながらさらに詳細に説明する。尚、その各動作は基本的には制御プログラムを備えた電子制御装置10の自動制御によるものである。   Hereinafter, the operation from the mounting of the bar 100 to the bar holding part 3 to the start of the polishing process will be described in more detail with reference to FIGS. Each operation is basically based on automatic control of the electronic control device 10 having a control program.

先ず、図示しない棒材切断装置で切り出された棒材100は、図4に示すように一点鎖線で示すロボットハンド等で移送され、棒材支持部5の待機位置にあるチャック351に下端側を挿入されてその閉じ動作で垂直に固定される。棒材100が固定されると、図5に示すようにロボシリンダ31が駆動してスライダ板32を下降させることで、棒材100の上端側をチャック33の中心を通して保持管330の中空部300開口位置まで挿入させる。   First, the bar 100 cut out by a bar cutting device (not shown) is transferred by a robot hand or the like indicated by a one-dot chain line as shown in FIG. 4, and the lower end side is placed on the chuck 351 at the standby position of the bar support 5. It is inserted and fixed vertically by its closing action. When the bar 100 is fixed, the ROBO cylinder 31 is driven and the slider plate 32 is lowered as shown in FIG. 5, so that the upper end side of the bar 100 passes through the center of the chuck 33 and the hollow portion 300 of the holding tube 330. Insert to the open position.

次に、図6に示すように、スリムシリンダ330bの駆動により受け部材330cが中空部300内を下降して、凹部3331を拡大した円形拡大図に示すように、棒材100上端面外周を凹部3331の傾斜面に摺接させながら押圧することで、棒材100上端面の中心が凹部3331の中心軸線に一致する方向に案内され、停止位置でこれらが一致した状態となる。   Next, as shown in FIG. 6, the receiving member 330 c is lowered in the hollow portion 300 by driving the slim cylinder 330 b, and the outer periphery of the upper end surface of the bar 100 is recessed as shown in the enlarged enlarged view of the recessed portion 3331. By pressing while making sliding contact with the inclined surface of 3331, the center of the upper end surface of the bar 100 is guided in a direction that coincides with the central axis of the recess 3331, and they are in a state of being coincident at the stop position.

受け部材330cが停止すると、図7に示すように棒材100の下端側を挟持したチャック351がシリンダ35の駆動により上昇し、棒材100が研磨作業に適した保持位置になるように位置決めされ、位置決めが完了するとナットランナー333が駆動して係止体333aの先端をチャック33の本体33a側面の係止凹部336に挿入してこれを係止し、アクチュエータ33cの駆動で爪335a,335b,335cを閉じ、これにより棒材100が棒材保持部3に装着・固定される。   When the receiving member 330c stops, the chuck 351 holding the lower end side of the bar 100 is raised by driving the cylinder 35 as shown in FIG. 7, and the bar 100 is positioned so as to be in a holding position suitable for the polishing operation. When the positioning is completed, the nut runner 333 is driven to insert the distal end of the locking body 333a into the locking recess 336 on the side surface of the main body 33a of the chuck 33 and lock it. By driving the actuator 33c, the claws 335a, 335b, 335 c is closed, whereby the bar 100 is mounted and fixed to the bar holding part 3.

そして、図8に示すように、チャック351が下降して元の位置に戻るとともにナットランナー333が後退して元の位置に戻り、図9に示すようにロボシリンダ31の駆動により棒材100を保持した棒材保持部3は上昇し、その後、ロボシリンダ21の駆動により円形砥石23,22の上方まで横移動して、ロボシリンダ31の駆動で下降しながら棒材100の下端面を研磨する。   Then, as shown in FIG. 8, the chuck 351 is lowered to return to the original position, and the nut runner 333 is retracted to return to the original position. As shown in FIG. The held bar holding part 3 moves upward, and then moves to the upper side of the circular grindstones 23 and 22 by driving the ROBO cylinder 21 and polishes the lower end surface of the bar 100 while lowering by driving the ROBO cylinder 31. .

尚、研磨の際には、棒材100の円形砥石22,23に対する押圧力を図示しない圧力検出センサで連続的に検出しており、適度な圧力を実現するようにロボシリンダ31又は押圧力調整手段の動作をフィードバック制御するようになっている。また、電子制御装置10は、棒材100の装着作業・研磨作業において、各シリンダ・アクチュエータの動作データを基に棒材100の研磨前・研磨中の正確な長さを検知しており、これを基に各シリンダの動作を正確に制御して棒材100の仕上がり長さを精密に実現するものとしている。   During polishing, the pressing force of the bar 100 against the circular grindstones 22 and 23 is continuously detected by a pressure detection sensor (not shown), and the ROBO cylinder 31 or the pressing force adjustment so as to realize an appropriate pressure. The operation of the means is feedback controlled. In addition, the electronic control device 10 detects the exact length of the rod 100 before and during polishing based on the operation data of each cylinder / actuator in the mounting / polishing operation of the rod 100. Based on the above, the operation of each cylinder is accurately controlled, and the finished length of the bar 100 is precisely realized.

さらに、棒材100の一方の端面の研磨作業が完了した場合、前述と逆の動作で棒材100をチャック351による最初の支持位置に戻すことができるが、棒材100の両端面を研磨する場合には、このようにして最初の支持位置に戻してからロボットハンドを用いて棒材100を上下逆の向きにして支持させることにより、前述と同じ手順で反対側の端面を研磨することができる。   Further, when the polishing operation of one end face of the bar 100 is completed, the bar 100 can be returned to the initial support position by the chuck 351 by the reverse operation to the above, but both end faces of the bar 100 are polished. In this case, the end face on the opposite side can be polished in the same procedure as described above by supporting the bar 100 in the upside down direction using the robot hand after returning to the initial support position in this way. it can.

図10(A),(B)を参照して、本実施の形態におけるドレッサー部4の動作を説明すると、図示しない電子制御装置10は、スライダ板43上に配設した高精度接触式デジタルセンサ等の所定のセンサ10aで、円形砥石22,23の平坦度・消耗量を所定のタイミングで自動的に検知するようになっている。そして、電子制御装置10はその検知データを基に、円形砥石23でドレッシング作業の必要な状態になったと判定すると、図10(A)の待機位置からロボシリンダ21の駆動による横移動で円形砥石23の上方にドレッサー部4を移動させる。   Referring to FIGS. 10A and 10B, the operation of the dresser unit 4 in the present embodiment will be described. An electronic control device 10 (not shown) is a high-precision contact type digital sensor disposed on the slider plate 43. A predetermined sensor 10a such as the above automatically detects the flatness and the amount of wear of the circular grindstones 22 and 23 at a predetermined timing. If the electronic control unit 10 determines that the circular grindstone 23 is in a state where the dressing operation is required based on the detected data, the circular grindstone is moved laterally by driving the ROBO cylinder 21 from the standby position in FIG. The dresser unit 4 is moved above 23.

そして、ロボシリンダ41を駆動させ、スライダ板43を下降させて下端側に保持したドレッサー刃45の先端を円形砥石23の上面中央付近に当接させ、円形砥石23を回動駆動させながら、ロボシリンダ21の駆動によりドレッサー刃45を横移動させて、中央部を除く研磨面総てを均して再生させる。尚、図3にも示したように、ドレッサー刃45の摩耗状態を検出する接触式のセンサ10bも配設されており、電子制御手段10はドレッサー刃45の交換時期を検知した場合、所定の手段でこれを作業者に報知するようになっている。   Then, the robot cylinder 41 is driven, and the tip of the dresser blade 45 held at the lower end side by lowering the slider plate 43 is brought into contact with the vicinity of the center of the upper surface of the circular grindstone 23. By driving the cylinder 21, the dresser blade 45 is moved laterally, and all the polished surfaces except the central portion are leveled and regenerated. As shown in FIG. 3, a contact type sensor 10b for detecting the wear state of the dresser blade 45 is also provided. When the electronic control means 10 detects the replacement timing of the dresser blade 45, a predetermined sensor 10b is provided. This is notified to the operator by means.

このように、本実施の形態による端面研磨装置1は、その作業工程の殆どが電子制御手段10の制御により自動化されており、円形砥石22,23のドレッシング作業も自動的に行われることから、従来例と比べて作業者の手間を大きく軽減する結果となった。   Thus, the end surface polishing apparatus 1 according to the present embodiment has most of its work steps automated by the control of the electronic control means 10, and the dressing work of the circular grindstones 22 and 23 is also automatically performed. Compared with the conventional example, the labor of the operator was greatly reduced.

以上述べたように、円柱状の棒材端面を研磨する端面研磨装置について、本考案により、保持手段に対する棒材の着脱作業を含め作業工程の自動化を大きく進めて作業者の手間をさらに軽減することができた。   As described above, for the end surface polishing apparatus that polishes the end surface of the cylindrical bar material, the present invention greatly increases the automation of the work process including the mounting and demounting operation of the bar material with respect to the holding means, further reducing the labor of the operator. I was able to.

1 端面研磨装置、2 研磨部、3 棒材保持部、4 ドレッサー部、5 棒材支持部、10 電子制御装置、10a,10b センサ、21,31,41,35 ロボシリンダ、30,32,43 スライダ板、22,23 円形砥石、25,26 モータ、33,351 チャック、100 棒材、330c 受け部材、3331 凹部   DESCRIPTION OF SYMBOLS 1 End surface grinding | polishing apparatus, 2 grinding | polishing part, 3 bar material holding | maintenance part, 4 dresser part, 5 bar material support part, 10 electronic controller, 10a, 10b sensor, 21, 31, 41, 35 ROBO cylinder, 30, 32, 43 Slider plate, 22, 23 Circular grindstone, 25, 26 Motor, 33, 351 Chuck, 100 Bar, 330c Receiving member, 3331 Recess

Claims (2)

棒材保持手段に対し下方から縦向きに装着した円柱状の棒材の下端面を、モータ駆動で回転している円形砥石の上面に自動的に押圧しながら研磨する端面研磨装置において、
前記棒材保持手段は、底面から円錐状または半球状に切り欠いた形状で開口部の内径が前記棒材の外径よりも大きな凹部を形成してなる受け部材と、前記凹部の中心軸延長線に中心軸線が一致するように前記棒材保持手段の下方に配置したチャックとを備えており、該チャックの下方から前記棒材を挿通してその上端側を前記受け部材の凹部内面に押圧することにより、前記棒材の上端側が傾斜した内面で案内されて前記凹部の中心軸線に前記棒材上端の中心が一致した状態で停止し、前記チャックを閉じることで前記棒材の中心軸線が前記棒材保持手段の中心軸線に一致した状態で装着が完了する、ことを特徴とする端面研磨装置。
In an end surface polishing apparatus that polishes while automatically pressing the lower end surface of a columnar bar attached vertically to the bar holding means against the upper surface of a circular grindstone rotating by a motor drive,
The bar holding means includes a receiving member formed by cutting a conical shape or a hemispherical shape from the bottom surface and forming a recess having an inner diameter of the opening larger than the outer diameter of the bar, and an extension of the central axis of the recess And a chuck disposed below the bar holding means so that the center axis line coincides with the line, and the bar is inserted from below the chuck and the upper end side is pressed against the inner surface of the recess of the receiving member. By doing so, the upper end side of the bar is guided by the inclined inner surface and stopped in a state where the center of the upper end of the bar coincides with the central axis of the recess, and the central axis of the bar is closed by closing the chuck. The end face polishing apparatus characterized in that the mounting is completed in a state where it coincides with the central axis of the bar holding means.
前記受け部材は、前記棒材保持手段の中心軸線に沿った上下動作が可能なものとされ、前記棒材の長さの変動に対応して前記チャックとの距離を変動可能とされている、ことを特徴とする請求項1に記載した端面研磨装置。   The receiving member is capable of moving up and down along the central axis of the bar holding means, and the distance from the chuck can be changed in response to a change in the length of the bar. The end surface polishing apparatus according to claim 1.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107900824A (en) * 2017-10-27 2018-04-13 黄丹红 A kind of thin bar both ends burr remover
CN114800124A (en) * 2022-04-28 2022-07-29 浙江希尔机器人股份有限公司 Device and method for polishing and deburring

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107900824A (en) * 2017-10-27 2018-04-13 黄丹红 A kind of thin bar both ends burr remover
CN114800124A (en) * 2022-04-28 2022-07-29 浙江希尔机器人股份有限公司 Device and method for polishing and deburring

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