JPH0543458B2 - - Google Patents

Description

【発明の詳細な説明】 （産業上の利用分野） この発明は筒体上端に截頭錐形の案内を設けた
略筒状槽と皿状の回転槽とで構成されるバレル槽
の回転槽のみを回転させて工作物を研磨するいわ
ゆる渦流バレル研磨と、バレル槽を水平又は傾斜
の状態で回転させて工作物を研磨するいわゆる回
転バレル研磨とをマスの出し入れなく連繋して行
うようにしたバレル研磨方法及び装置に関するも
のである。Detailed Description of the Invention (Industrial Field of Application) This invention relates to a rotating tank of a barrel tank, which is composed of a substantially cylindrical tank having a truncated pyramid-shaped guide at the upper end of the cylinder and a dish-shaped rotating tank. The so-called whirlpool barrel polishing, in which the workpiece is polished by rotating a chisel, and the so-called rotary barrel polishing, in which the workpiece is polished by rotating the barrel in a horizontal or inclined state, are performed in conjunction without moving the mass in or out. The present invention relates to a barrel polishing method and apparatus.

（従来の技術及びその解決課題） 従来渦流バレル研磨は加工能率は良いが、表面
アラサの向上は望めなかつた。またサーメツトチ
ツプ、超硬チツプ及びセラミツク等カケ、ワレ、
チツピングを起しやすい硬脆材の研磨には適さな
かつた。(Prior art and problems to be solved) Conventional eddy current barrel polishing has good processing efficiency, but no improvement in surface roughness could be expected. In addition, chips, cracks, etc. of thermet chips, carbide chips, and ceramics, etc.
It is not suitable for polishing hard and brittle materials that are prone to chipping.

（課題を解決する為の手段） 然るにこの発明によれば、略筒状槽と皿状の回
転槽とで構成されたバレル槽を軸線のまわりに回
転可能に、かつ垂直面内で回動自在に軸承し、バ
レル槽内へ工作物と研磨材と要すれば水及びコン
パウンドを装入し、前記皿状の回転槽のみを回転
して渦流バレル研磨により工作物を粗仕上した
後、バレル槽の軸線を水平又は傾斜位置に回動
し、バレル槽を軸線のまわりに回転して回転バレ
ル研磨により工作物を同一研磨材で引続き光沢仕
上げするようにしたので、渦流バレル研磨と回転
バレル研磨とを同一の研磨材で連続して行うこと
ができることとなり、極めて良好な表面アラサを
得ることができる。またバレル槽を水平又は傾斜
する様に設置し、バレル槽内へ所定量の工作物と
研磨材とを装入し、バレル槽をその軸のまわりに
回転して回転バレル研磨により工作物を研磨し、
然る後引続いてバレル槽をその軸線がほぼ垂直と
なる様に回動し、バレル槽の皿状の回転槽のみを
回転して工作物を研磨する様にした場合には工作
物は先ず、あたりの弱い回転バレル研磨でエツジ
部に小さなＲが付けられ、引続いて渦流バレル研
磨により高能率の研磨が行われる。従つて硬脆材
の工作物であつてもカケ、ワレ及びチツピングを
起すことはないなど前記従来の問題点を解決した
ものである。(Means for Solving the Problems) However, according to the present invention, a barrel tank composed of a substantially cylindrical tank and a dish-shaped rotating tank is rotatable around an axis and freely rotatable within a vertical plane. The workpiece, abrasive material and, if necessary, water and compound are charged into the barrel tank, and after the workpiece is rough-finished by whirlpool barrel polishing by rotating only the dish-shaped rotating tank, the workpiece is placed in the barrel tank. The axis of the barrel is rotated to a horizontal or inclined position, the barrel tank is rotated around the axis, and the workpiece is polished continuously using the same abrasive material by rotating barrel polishing, so whirlpool barrel polishing and rotating barrel polishing are These can be performed continuously using the same abrasive material, and extremely good surface roughness can be obtained. In addition, the barrel tank is installed horizontally or inclined, a predetermined amount of workpieces and abrasive material are charged into the barrel tank, and the barrel tank is rotated around its axis to polish the workpieces by rotating barrel polishing. death,
After that, if the barrel tank is subsequently rotated so that its axis is almost vertical, and only the dish-shaped rotating tank of the barrel tank is rotated to polish the workpiece, the workpiece will first be polished. A small radius is added to the edge by gentle rotating barrel polishing around , followed by high efficiency polishing by swirl barrel polishing. Therefore, the above-mentioned conventional problems such as no chipping, cracking, or chipping occur even when the workpiece is made of hard and brittle materials are solved.

この発明におけるバレル槽は渦流バレル研磨法
と、回転バレル研磨法の両様に使用できることを
要件とし、筒状槽には円筒槽と角筒槽が考えら
れ、各槽共に口部に内傾斜（截頭錐形）の案内が
あつた方がよいと認められる。また角筒槽は６
角、７角、８角が考えられる。 The barrel tank in this invention is required to be able to be used for both the whirlpool barrel polishing method and the rotating barrel polishing method, and the cylindrical tank can be a cylindrical tank or a rectangular tank. It is recognized that it is better to have a conical (cone-shaped) guide. Also, the square cylinder tank is 6
Angular, heptagonal, and octagonal shapes are possible.

実施例 １ 即ちこの発明の方法によれば、軸線をほぼ垂直
（場合によつて傾斜させてもよい）にしたバレル
槽内へ適量の工作物と研磨材を装入し、回転槽の
みを回転して通常の要領による渦流バレル研磨を
行い、所定の研磨度に達したならば、そのままバ
レル槽の軸線を一定角度傾斜させた後（例えば30
度、又は90度）、バレル槽を回転して通常の要領
により回転バレル研磨を行う。前記のような渦流
バレル研磨に引続き回転バレル研磨を行う連繋研
磨においては、一般に工作物を粗研磨より仕上研
磨する場合に用いる。前記に反し、先ず軸線を傾
斜させたままバレル槽を回転し、ついで軸線を垂
直にして回転槽のみ回転する連繋研磨においては
先ず工作物のエツジ部によつて小さなＲをつけ、
然る後表面粗研磨するものである。従つて研磨目
的別に連繋状態を選定使用する。前記におけるバ
レル槽の筒状槽は６角又は８角の角筒槽を用いる
が、工作物のバリ取りを必要とする場合には円筒
槽を用いて摺動研磨するのが有利である。円筒槽
た用いて工作物を研磨するには、先ず軸線を傾斜
させてバレル槽を回転し、所定の研磨を終了した
後、軸線を垂直にして渦流バレル研磨を行う。Embodiment 1 That is, according to the method of the present invention, an appropriate amount of workpiece and abrasive material are charged into a barrel tank whose axis is approximately vertical (it may be tilted depending on the case), and only the rotating tank is rotated. Then, perform eddy current barrel polishing in the usual manner, and once the specified degree of polishing is reached, the axis of the barrel tank is tilted at a certain angle (for example, 30
or 90 degrees), rotate the barrel bath and perform rotary barrel polishing in the usual manner. The above-described continuous polishing in which whirlpool barrel polishing is followed by rotating barrel polishing is generally used when finishing polishing a workpiece rather than rough polishing. Contrary to the above, in continuous polishing in which the barrel tank is first rotated with the axis line inclined, and then only the rotating tank is rotated with the axis line perpendicular, a small radius is first created at the edge of the workpiece.
After that, the surface is roughly polished. Therefore, the connected state is selected and used depending on the purpose of polishing. As the cylindrical tank of the barrel tank in the above, a hexagonal or octagonal square tubular tub is used, but when it is necessary to deburr the workpiece, it is advantageous to use a cylindrical tub for sliding polishing. To polish a workpiece using a cylindrical tank, first, the axis is tilted and the barrel tank is rotated, and after completing a predetermined polishing, the axis is made vertical and vortex barrel polishing is performed.

実施例 ２ 次にこの発明の装置の詳細を添付の図によつて
説明する。第１図及び第２図はこの発明を実施す
る装置において、バレル槽をその軸線が垂直にな
る様設置した装置の正面図及び断面図であり、第
３図はバレル槽を傾斜位置に回動した時の側面図
である。この発明の装置は所定間隔をおいて設置
された１フレーム１，１ａ上に軸受２，２ａを固
定し、該軸受２，２ａ内へバレル槽３を軸承する
軸受４の両側へ対称的に水平に突設した回転軸
５，５ａを嵌挿支承する。前記回転軸５の一端に
はプーリー６又は鎖車を固定し、該プーリー６又
は鎖車は、フレーム下部に設置した減速機付きモ
ーター７のプーリー８又は鎖車と、ベルト９又は
チエーンを介して回転される。前記バレル槽３は
第２図に示す様に角筒槽１０とその下端に合致す
る皿状の回転槽１１とで構成される。前記バレル
槽３の内壁面には夫々ライニング１０ａ，１１ａ
が装着されている。前記回転槽１１の底部外側の
中心部には駆動軸１２の基端が直角に取り付けら
れ、該駆動軸１２は前記角筒槽１０の底部中心部
に一体的に取り付けられた円筒部１３内に嵌通さ
れ、ベアリング２７を介して回転可能に支持され
ている。前記円筒部１３は回転軸５，５ａに支持
された前記軸受４内に回転可能に嵌挿され、前記
円筒部１３の一端にはプーリー１４又は鎖車が固
着されており、前記軸受４に固着したフランジ１
５に設置した可変速モーター１６のプーリー１７
又は鎖車及びベルト１８又はチエーンを介して回
転される。また前記駆動軸１２の一端にはプーリ
ー１９又は鎖車を固定し、前記フランジ１５に設
置した可変速モーター２０、電磁クラツチ２１、
プーリー２２又は鎖車及びベルト２３を又はチエ
ーンを介して回転される。この場合に電磁クラツ
チ２１がONの時はモーター２０の駆動力が前記
プーリー２２又は鎖車に伝達されるが、電磁クラ
ツチ２１がOFFの時はモーター２０の駆動力が
前記プーリー２２又は鎖車に伝達されない。図中
２８は角筒槽の上端に連設した截頭角錐状の案内
である。Embodiment 2 Next, details of the apparatus of the present invention will be explained with reference to the attached drawings. Figures 1 and 2 are a front view and a cross-sectional view of an apparatus implementing the present invention in which a barrel tank is installed so that its axis is vertical, and Figure 3 shows a system in which the barrel tank is rotated to an inclined position. FIG. The device of this invention fixes bearings 2, 2a on one frame 1, 1a installed at a predetermined interval, and horizontally extends symmetrically to both sides of a bearing 4 that supports a barrel tank 3 into the bearings 2, 2a. Rotating shafts 5, 5a protruding from the shafts are fitted and supported. A pulley 6 or a chain wheel is fixed to one end of the rotating shaft 5, and the pulley 6 or chain wheel is connected to a pulley 8 or a chain wheel of a motor 7 with a reducer installed at the bottom of the frame via a belt 9 or a chain. be rotated. As shown in FIG. 2, the barrel tank 3 is composed of a rectangular cylinder tank 10 and a dish-shaped rotary tank 11 that matches the lower end of the rectangular cylinder tank 10. Linings 10a and 11a are provided on the inner wall surface of the barrel tank 3, respectively.
is installed. The base end of a drive shaft 12 is attached at a right angle to the center of the outside of the bottom of the rotary tank 11, and the drive shaft 12 is mounted in a cylindrical portion 13 that is integrally attached to the center of the bottom of the rectangular cylindrical tank 10. It is fitted through and rotatably supported via a bearing 27. The cylindrical portion 13 is rotatably fitted into the bearing 4 supported by the rotating shafts 5, 5a, and a pulley 14 or chain wheel is fixed to one end of the cylindrical portion 13, and is fixed to the bearing 4. Flange 1
Pulley 17 of variable speed motor 16 installed at 5
Or rotated via chain wheel and belt 18 or chain. A pulley 19 or a chain wheel is fixed to one end of the drive shaft 12, and a variable speed motor 20 and an electromagnetic clutch 21 are installed on the flange 15.
It is rotated via a pulley 22 or chain wheel and belt 23 or a chain. In this case, when the electromagnetic clutch 21 is ON, the driving force of the motor 20 is transmitted to the pulley 22 or the chain wheel, but when the electromagnetic clutch 21 is OFF, the driving force of the motor 20 is transmitted to the pulley 22 or the chain wheel. Not communicated. In the figure, 28 is a truncated pyramid-shaped guide connected to the upper end of the square tubular tank.

前記第１図および第２図の実施例においては、
角筒槽とこれに合致する皿状の回転槽によるバレ
ル槽を用いたが、第４図図示のように、円筒槽２
９と、これに合致する皿状の回転槽３０よりなる
バレル槽３１を用いることもできる。バレル槽の
筒状槽を円筒槽にするか角筒槽するかは工作物の
研磨目的に応じて選定する。 In the embodiments of FIGS. 1 and 2,
A barrel tank consisting of a rectangular cylindrical tank and a matching dish-shaped rotating tank was used, but as shown in Fig. 4, the cylindrical tank 2
9 and a barrel tank 31 consisting of a dish-shaped rotating tank 30 that matches this can also be used. Whether the barrel tank is a cylindrical tank or a rectangular tank is selected depending on the purpose of polishing the workpiece.

前記実施例に基づいてこの発明の動作を説明す
る。この発明の装置によれば、渦流バレル研磨か
ら連続した回転バレル研磨又は回転バレル研磨か
ら連続した渦流バレル研磨を行うことができる。
ここではこの発明を最も理解しやすい渦流バレル
研磨から連続した回転バレル研磨より研磨する場
合について述べるものとする。 The operation of the present invention will be explained based on the above embodiment. According to the apparatus of the present invention, it is possible to perform rotating barrel polishing that is continuous from whirlpool barrel polishing, or to perform whirlpool barrel polishing that is continuous from rotary barrel polishing.
Here, we will discuss the case where this invention is most easily understood by polishing from whirlpool barrel polishing to continuous rotary barrel polishing.

先ずバレル槽３をその軸線がほぼ垂直となる様
に設置し、バレル槽３内へ所定量の工作物と研磨
材を入れ、要すれば水及びコンパウンドを加え、
必要に応じバレル槽３の開口部２４に蓋を取り付
けて密閉する。次に電磁クラツチ２１をONにし
て可変速モーター２０を駆動すると駆動軸１２が
回転し回転槽１１は回転する。この回転によりマ
ス（工作物と研磨材等の混合物）は遠心力により
角筒槽１０の内周壁へ押し上げられた後、重力に
より回転槽１１の中心方向へ落下して第２図の矢
示２５に示す様な流動を繰り返し、工作物は研磨
材で研磨（粗仕上）される。この渦流バレル研磨
が終了したならば前記可変速モーター２０を停止
し、電磁クラツチ２１をOFFにする。次に減速
機付きモーター７を始動して前記バレル槽３を回
動し、水平又は第３図に示す様に水平に対し30度
内外にバレル槽の軸線を傾斜させて停止させる。
次に可変速モーター１６を駆動して角筒槽１０及
回転槽１１と共にバレル槽３をその軸線のまわり
回転してマスを第３図中矢示２６に示す様に流動
し、工作物は研磨材で研磨（光沢仕上）される。
従つて工作物は前記渦流バレル槽でバリ・カエリ
取り、Ｒ付け等の粗仕上が行われ、引続いて同一
研磨材で回転バレル研磨により細仕上、メツキ下
地等の光沢仕上を行うことができる。回転バレル
研磨が終了したなら前記可変速モーター１６を停
止し、減速機付きモーター７を再び駆動してバレ
ル槽３を更に回動して開口部２４を下方に向けて
マスを振動選別機（図示していない）の網上に排
出して一サイクルを終了する。 First, the barrel tank 3 is installed so that its axis is almost vertical, a predetermined amount of workpieces and abrasive material are put into the barrel tank 3, water and compound are added if necessary,
If necessary, a lid is attached to the opening 24 of the barrel tank 3 to seal it. Next, when the electromagnetic clutch 21 is turned on and the variable speed motor 20 is driven, the drive shaft 12 rotates and the rotary tank 11 rotates. As a result of this rotation, the mass (a mixture of the workpiece and abrasive material, etc.) is pushed up toward the inner peripheral wall of the square tubular tank 10 by centrifugal force, and then falls toward the center of the rotating tank 11 due to gravity, as indicated by the arrow 25 in FIG. The workpiece is polished (roughly finished) with an abrasive by repeating the flow shown in . When this whirlpool barrel polishing is completed, the variable speed motor 20 is stopped and the electromagnetic clutch 21 is turned off. Next, the motor 7 with a speed reducer is started to rotate the barrel tank 3, and the axis of the barrel tank is tilted horizontally or inwardly or outwardly by 30 degrees with respect to the horizontal as shown in FIG. 3, and then stopped.
Next, the variable speed motor 16 is driven to rotate the barrel tank 3 along with the rectangular cylinder tank 10 and the rotating tank 11 around its axis to cause the mass to flow as shown by the arrow 26 in FIG. Polished (gloss finish).
Therefore, the workpiece can be rough-finished such as removing burrs and burrs and adding radii in the whirlpool barrel bath, and then can be fine-finished and gloss-finished with plating base etc. by rotating barrel polishing using the same abrasive material. . When the rotary barrel polishing is completed, the variable speed motor 16 is stopped, and the motor 7 with a speed reducer is driven again to further rotate the barrel tank 3 so that the opening 24 faces downward and the mass is transferred to a vibration sorter (Fig. (not shown) to complete one cycle.

尚、前記バレル槽３の円筒槽１０の内周壁に螺
旋状の突条を設けると研磨効果を向上しまた排出
を円滑にする効果がある。また前記実施例ではこ
の発明の装置を研磨に使用する場合について述べ
たが研磨以外の混合、撹拌、粉砕、化学操作など
に使用することもできる。 Incidentally, providing a spiral protrusion on the inner peripheral wall of the cylindrical tank 10 of the barrel tank 3 has the effect of improving the polishing effect and smoothing the discharge. Further, in the above embodiments, the case where the apparatus of the present invention is used for polishing has been described, but it can also be used for mixing, stirring, pulverizing, chemical operations, etc. other than polishing.

（発明の効果） 即ちこの発明によれば、渦流バレル研磨と回転
バレル研磨とを連繋させたので同一研磨機および
研磨材によつて二種類の研磨等の加工をし得る効
果がある。またこの発明の装置によれば、筒状槽
と回転槽を垂直面内で傾動自在にすると共に、軸
線が垂直な場合に回転槽のみを回転し、軸線が傾
斜又は水平になつた場合にバレル槽を回転するよ
うに架設したので、同一バレル槽を使用し、二種
類の加工をし得る効果がある。(Effects of the Invention) That is, according to the present invention, since the whirlpool barrel polishing and the rotary barrel polishing are linked, there is an effect that two types of polishing can be performed using the same polishing machine and polishing material. Further, according to the device of the present invention, the cylindrical tank and the rotating tank can be tilted freely in a vertical plane, and only the rotating tank can be rotated when the axis is vertical, and the barrel can be rotated when the axis is tilted or horizontal. Since the tank is installed to rotate, it is possible to perform two types of processing using the same barrel tank.

【図面の簡単な説明】[Brief explanation of drawings]

第１図はこの発明の実施装置の正面図、第２図
は同じく断面側面図、第３図は同じくバレル槽を
回動した時の側面図、第４図は同じく円筒槽とし
た場合の一部断面拡大図である。 ３…バレル槽、４…軸受、５，５ａ…回転軸、
１０…角筒槽、１１…回転槽。 Fig. 1 is a front view of the apparatus for implementing the present invention, Fig. 2 is a cross-sectional side view, Fig. 3 is a side view when the barrel tank is rotated, and Fig. 4 is a cylindrical tank. It is a partial cross-sectional enlarged view. 3... Barrel tank, 4... Bearing, 5, 5a... Rotating shaft,
10... Square cylinder tank, 11... Rotating tank.

Claims (1)

【特許請求の範囲】 １ 略筒状槽とその下部を塞ぐ皿状の回転槽より
なるバレル槽内へ所定量の工作物と研磨材とを装
入し、前記バレル槽の軸線をほぼ垂直に保つたま
ま前記皿状の回転槽のみを回転して工作物を研磨
する方法と、前記バレル槽の軸線を垂直方向から
所定角度傾斜回動させた位置で前記バレル槽を軸
線のまわりに回転させて工作物を研磨する方法と
を連繋させることを特徴としたバレル研磨方法。 ２ バレル槽を回転させる研磨法Ａと、皿状の回
転槽のみを回転させる研磨法Ｂとの研磨法の順序
はＡ→Ｂ、又はＢ→Ａのいずれも可能であるよう
にした特許請求の範囲第１項記載のバレル研磨方
法。 ３ バレル槽の回転による研磨法はバレル槽の軸
線を傾斜させ又は水平にさせることとした特許請
求の範囲第１項記載のバレル研磨方法。 ４ 略筒状槽とその下部を塞ぐ皿状の回転槽とで
バレル槽を構成し、前記略筒状槽の回転軸と、前
記皿状の回転槽の回転軸とを同心二重構造とし
て、同一の回転軸線のまわりに別々に回転駆動可
能に架設すると共に、前記バレル槽はその軸線を
垂直方向から所定角度傾斜回動可能に設置したこ
とを特徴とするバレル研磨装置。 ５ バレル槽の中心軸線の回動角度は90度以上と
した特許請求の範囲第４項記載のバレル研磨装
置。 ６ 筒状槽は円筒槽又は角筒槽とした特許請求の
範囲第４項記載のバレル研磨装置。 ７ 角筒槽は６角、７角又は８角とした特許請求
の範囲第６項記載のバレル研磨装置。[Claims] 1. A predetermined amount of workpieces and abrasive material are charged into a barrel tank consisting of a substantially cylindrical tank and a dish-shaped rotating tank that closes the lower part, and the axis of the barrel tank is set almost vertically. A method for polishing a workpiece by rotating only the dish-shaped rotating tank while the barrel is rotated at a predetermined angle from a vertical direction; A barrel polishing method characterized by linking the method with a method of polishing a workpiece. 2. A patent claim in which the order of the polishing methods of polishing method A in which a barrel tank is rotated and polishing method B in which only a dish-shaped rotating tank is rotated can be either A→B or B→A. The barrel polishing method according to scope 1. 3. The barrel polishing method according to claim 1, wherein the polishing method by rotating the barrel tank is performed by tilting or making the axis of the barrel tank horizontal. 4. A barrel tank is constituted by a substantially cylindrical tank and a dish-shaped rotating tank that closes the lower part thereof, and a rotating shaft of the substantially cylindrical tank and a rotating shaft of the dish-shaped rotating tank are made into a concentric double structure, 1. A barrel polishing device, characterized in that the barrels are installed so that they can be rotated separately around the same rotational axis, and the barrels are installed so that their axes can be rotated at a predetermined angle from the vertical direction. 5. The barrel polishing device according to claim 4, wherein the rotation angle of the central axis of the barrel tank is 90 degrees or more. 6. The barrel polishing device according to claim 4, wherein the cylindrical tank is a cylindrical tank or a rectangular tank. 7. The barrel polishing device according to claim 6, wherein the rectangular tubular tub is hexagonal, heptagonal, or octagonal.