JPS5939435A - Rotary setting device of wire rod - Google Patents

Abstract

PURPOSE:To set a wire rod at a high speed without damaging the surface of the wire rod and without shortening the life of guide nozzles by providing independently and freely revolvably the respective guide nozzles of a rotary setting device of the type in which a tool is rotated. CONSTITUTION:The pitch and radial eccentricity between guide nozzles 2 are determined to meet factors such as the material, diameter, feed speed or the like of a wire rod (a) to be worked and a nozzle support disc 6 is adjusted according to the same to set the curvature of the wire rod (a) at an optimum value. Thereupon a rotary holder 1 is rotated to transfer continuously the rod (a), then the rod (a) receives the combined deformation of repetitive bending, stretching and twisting by the inside surfaces of the holes 2a of the nozzles 2 and is delivered while the wire rod is set. Since the nozzles 2 are respectively independently and freely revolvable, the nozzles 2 revolve by frictional force when sliding friction arises between the rod (a) and the inside peripheral surfaces of the holes 2a in the stage of applying the combined deformation. The rod (a) is thus kept free from the frictional force and the wear and damage on the surface thereof are prevented.

Description

【発明の詳細な説明】 本発明は、キャリヤ等に巻取られた線材（例えば線径１
．０船Ｎ〜２．０ＩＩＪ１程度）を、連続的（二真直に
回転矯正する一材回転矯ｉＥ装置（１関する。DETAILED DESCRIPTION OF THE INVENTION The present invention provides a wire rod (for example, a wire rod with a wire diameter of 1
．． One-piece rotary straightening iE device (1) that continuously (two straight rotationally straightens)

線材は、冷間仕上げ　熱間仕上げを問わずその状態のま
までは加工に基づく残留応力によつ−Ｃ大なり小なり曲
がっており、また通冨騙材はキャリヤに巻取られてスト
ックされており、その後の取扱いや実用性から矯正を行
って具匣ぐな線材にしなければならない。Regardless of whether the wire is cold-finished or hot-finished, if it remains in that state, it will be bent to a greater or lesser degree due to residual stress caused by processing, and wire rods are wound onto carriers and stocked. Therefore, from the viewpoint of handling and practicality, it is necessary to correct the wire rod to make it into a solid wire rod.

包括的な矯正機構とは、一般に曲がりと逆方向（二適当
な塑性変形を与えて伸性はね返りののち真直ぐになるよ
うにすることで、線材の矯正法としては、ロール矯正法
、　１１７１転論正法、引張り矯正法等槓々の慣用矯正
があり、線材の材質、Ｍ径等の要素に応じた最為な矯正
法が取られている。A comprehensive straightening mechanism generally involves applying appropriate plastic deformation in the direction opposite to the bending so that the wire straightens after elastic rebound. There are many conventional straightening methods such as the normal straightening method and the tensile straightening method, and the most suitable straightening method is used depending on factors such as the material of the wire and the M diameter.

この回転矯正法（二は、材料を回転させるものと、逆に
工員（案内ノズル）を回転させるものの２方法があり、
いずれの場合も線材に紛り返し曲げおよび引張り良形と
同時に著しいねじりに形を与えて、線材を真直ぐ（二矯
正しようとするものである。There are two ways to correct this rotation: one is to rotate the material, and the other is to rotate the worker (guide nozzle).
In either case, the aim is to straighten the wire by giving the wire a good shape by bending and pulling, and at the same time giving a shape to the severe twist.

この発明は上記の後者の形式、ｙｌ」ち、工具（案内ノ
ズル）を回転させるＪし式の分野（二属し、この形式の
場合、線材と案内ノズルとが圧接接触して、案内ノズル
のノズル孔内面で線材（二繰り返し曲げ等の作用を加え
るものであるから、たとえば案内ノズルを硬い超硬合金
等で形成したときには案内ノズルの摩耗は防止されて耐
久使用できるが線材の表向（二縞倚タ生じ、反対に案内
ノズルを柔イ合成樹脂、砲金等で形成したときは線材の
表面の傷の発生は防止されるが系内ノズルはすぐ（二へ
たり、特命が短いという表軸関係の大きな開−が内在し
ていた。This invention applies to the above-mentioned latter type, i.e., to the field of the J type for rotating a tool (guide nozzle). Since the wire rod is subjected to an action such as double bending on the inner surface of the hole, for example, if the guide nozzle is made of hard cemented carbide, the wear of the guide nozzle is prevented and it can be used for a long time. On the other hand, when the guide nozzle is made of soft synthetic resin, gunmetal, etc., scratches on the surface of the wire can be prevented, but the nozzle inside the system can be easily damaged (destructive, and the special mission is short). There was a huge gap within.

この発明は、以上のような従来の問題に着目し、高速に
、しかも線材表面Ｃ１傷を付けたり、案内ノズルの短寿
命化をすることなく良好（＝矯正することのできる線材
回転矯正装置を提供しようとするものである。This invention has focused on the above-mentioned conventional problems, and has developed a wire rotation straightening device that can perform good (= straightening) at high speed without damaging the wire surface C1 or shortening the life of the guide nozzle. This is what we are trying to provide.

以下、この発明の一実施例を添付図面を診照して説明す
る。Hereinafter, one embodiment of the present invention will be described with reference to the accompanying drawings.

回転ホルダ（１）の中心軸線近傍（１該回転中心軸線よ
り半径方向（二拍定偏位鼠交互（二偏位させて複数個の
案内ノズル（２）を並設し、該回転ホルダ（１）の中心
軸線上（二加工線材（ａ）をＡｉｌ記各々の案内ノズル
（２）のノズル孔（２ａ）を挿通して配設し、ｉｉＪ記
回転ホルダ（１）を回転させながら加工線材（ａ）を−
＆続林・送し、ｎｉＩ紀複数個の案内ノズル（２）のノ
ズル孔（２ａ）内面で０１記加工線材（ａ）（二繰り返
し曲げ、１嶽り、ねじりの組汐合わせ２と影を作用させ
て加工線材（ａ）を１に矯正するものであって、上記各
々の案内ノズル（２）は独立的（二自転自在に設けられ
たことを特歎とするものである。A plurality of guide nozzles (2) are arranged in parallel in the vicinity of the central axis of the rotating holder (1) (1) in the radial direction from the central axis of rotation (2 beats with constant deviation alternately (2 deviations), ) on the center axis of (2) the processed wire (a) is inserted through the nozzle hole (2a) of the guide nozzle (2) of each guide nozzle (2), and ii. a) -
& Tsuzukibayashi, sending, 01 processing wire (a) (twice repeated bending, one twisting, twisting combination 2 and shadow) on the inner surface of the nozzle hole (2a) of the multiple guide nozzles (2) The processed wire rod (a) is straightened into 1 shape by acting on the guide nozzle (2), and each of the guide nozzles (2) is specially provided so as to be able to rotate freely on its own axis.

以下ｌ）′′細（二説明１−る。Hereinafter l)'' details (2 explanations 1-1).

本冥施例は、図示しない機台の側面（１所定間隔をＭし
てピローブロック（３８）（３ｂ）を１ｃ設し、前記回
転ホルダ（１）を駆動側ホルダ（４）と受承−ホルダ（
５）とで２分形）戎し、該駆動側ホルダ（４）及び受承
偶ホルダ（５）の各対向面を斜向に形成し、且駆動側ホ
ルダ（４）の対向面ｐｒＩＩ側（二係合突片（４８）Ｙ
突設し、受承側ホルダ（５）の対向面外周部（＝該保合
欠片（４ａ）が軸梅方同スライド自在（二係合する係合
凹溝（省略片形成し、駆動側ホルダ（４）を一方のどロ
ーブロック（３ａ）ｉ二回転自在に軸支すると共（二受
承側ホルダ（５）を他力のビローブロック（３ｂ）に回
転自在（二軸支し、駆動側ホルダ（４）と受承側ホルダ
（５）との間（二５　（１ｉＷのノズル支承盤（６）を
斜め状態で介在し、該各々のノズル支承盤（６）の外周
部対同位置（二Ｕ字溝（６ａ）を切欠形成し、且該画Ｕ
字溝（６ａ）と直交１−る位置に前記両係合突片（４ａ
）の遊欧入する逃げ溝（６ｂ）￥形成し、受承側ホルダ
（５）よりｈｄ記Ｕ字６４（６ａ）Ｙガ」して締付ボル
ト（７）を駆動側ホルダ（４）Ｃ二螺看し、該締付ボル
ト（７）の締付け（二よってｂｉＪ記５個のノズル支承
盤（６）ヲ挾狼し、且各々のノズル支承盤（６）にｆｉ
ｉＪ記保合美片（番ａ）の側面に当接する＃を節ホルト
（８）を螺有し、前記締付ボルト（８）を少し緩めた状
態で該ｗｒｄ九′Ｊポルト（８）を進退させ、５１個の
谷々のノズル支承盤（６）を牛径方向（二微調＃司能に
し、更Ｃ二ａｉＪ記駆動側ホルダ（４）の軸線上に導入
ノズル（９）を遊挿し、該導入ノズル（９）を廻り止め
板（１０ａ）　ｉ二連結して廻り止めし、受承側ホルダ
（５）の軸線上に埒、出ノズルａ１）？０：遊挿し、該
導出ノズル０υも勉り止め板（１０ｈ）−二連結して廼
り止めし、導入ノズル（９）より加工線材（ａ）を押入
し、東向ノズル（２）のノズル孔（２ａ）を挿通して導
出ノズル（ｌυより加工線材（ＡＪを導出するようにし
ている。In this embodiment, pillow blocks (38) (3b) are installed on the side of the machine (not shown) at a predetermined interval M, and the rotary holder (1) is received by the drive side holder (4). holder(
5), the opposing surfaces of the drive side holder (4) and the receiving couple holder (5) are formed obliquely, and the opposing surface prII side (two halves) of the drive side holder (4) is formed diagonally. Engagement protrusion (48) Y
The outer periphery of the opposing surface of the receiving side holder (5) (=the retaining piece (4a) can slide freely in the same direction as the shaft (two engaging grooves (omitted piece is formed) and the driving side holder (4) is rotatably supported on one throat row block (3a), and the receiving side holder (5) is rotatably supported on the other side of the bellow block (3b). (4) and the receiving side holder (5) (25 (1iW) nozzle support plate (6) is interposed in an oblique state, and the outer periphery of each nozzle support plate (6) is at the same position (two A U-shaped groove (6a) is formed with a cutout, and the U-shaped groove (6a)
Both engaging protrusions (4a) are provided at positions perpendicular to the grooves (6a).
), form a clearance groove (6b) to insert the free end of the holder (5), and attach the tightening bolt (7) to the drive side holder (4)C by inserting the hd mark U-shape 64 (6a) Y from the receiving side holder (5). Tighten the tightening bolt (7) by checking the two screws and tightening the tightening bolt (7).
Screw the joint bolt (8) onto the # that contacts the side of the iJ record holder (number a), and with the tightening bolt (8) slightly loosened, tighten the wrd 9'J port (8). Move the nozzle support plate (6) of the 51 valleys forward and backward in the radial direction (two fine adjustment positions), and loosely insert the introduction nozzle (9) onto the axis of the drive side holder (4). , the introduction nozzle (9) is connected to a rotation prevention plate (10a) to prevent rotation, and the output nozzle (a1) is placed on the axis of the receiving holder (5). 0: Loosely inserted, the outlet nozzle 0υ is also connected to the stopper plate (10h) to prevent it from turning, and the processed wire (a) is pushed through the introduction nozzle (9) and inserted into the nozzle hole of the eastward nozzle (2). (2a) is inserted to lead out the processed wire (AJ) from the lead-out nozzle (lυ).

また本実施例では、各案内ノズル（２）を独立的に回転
自在となるよう（二、前記ノズル支承盤（６）の軸線孔
にコロガリ＠１１受（ｌ）を販装し、該コロガリ軸受０
渇に前記藁内ノズル（２）を欺宥し、独立的に同転自在
となるようにしている。In addition, in this embodiment, in order to make each guide nozzle (2) freely rotatable independently (2. A roller bearing @11 is installed in the axis hole of the nozzle support plate (6), and the roller roller bearing 0
The straw internal nozzle (2) is made to be able to rotate independently.

また、第３図は使用状態図ｔボし、該図は加工線材（ａ
）を真直ぐ（二矯正した後定寸切断するものを図示し、
すなわちドラム０（二巻取られている加工線材（ａ）を
ロール矯正部Ｉ（二よって荒矯正加工し、本装置を辿し
て仕上矯正加工し、移送ロールミ９ヲ介して、対向する
切断ロールミＱ間を通し、切断ロール（１６１の切断刃
（１６ａ）によって真直ぐに矯正された加工線材（ａ）
　’＆定寸切断し、定寸切断された加工線材（ａ）を搬
出コンベヤ（Ｌ７）によりシυ出するようＣ二したもの
を図示している。In addition, Fig. 3 is a usage state diagram.
) is straightened (two times) and then cut to a fixed length.
In other words, the processed wire (a) taken up in two rolls on the drum 0 is roughly straightened by the roll straightening section I (2), then finished straightened by following this device, and transferred to the opposing cutting roll mill via the transfer roll mill 9. Processed wire (a) passed through Q and straightened by the cutting blade (16a) of the cutting roll (161)
The wire rod (a) is cut to a certain size and then cut to a certain size, and the processed wire rod (a) is discharged by a carry-out conveyor (L7).

符号α樟は駆動モータ、仕り）は駆動ベルトである。The symbol α is the drive motor, and the symbol α is the drive belt.

本実施例は上記構成であるから、先ず加工線材（ａ）の
材質、線径それに加工線材（ａ）の送り思反等の要素に
合わせて、案内ノズル（２月田ピッチ、半径方向の偏心
量（オフセット組）ヲ決短し、それに応じてノズル支承
盤（６）をｗ７４　整し、これによって加工線材（ａ）
の曲率な最ｊｊ項値に設定し、この状態で４動モータ（
ｔｉ＋二より回転ホルダ（１１を回転さ七−１加工線口
（ａ）をＪ！！！紅移送１−ると、該連続移送される加
工線材（ａ）は各々のノズル支承盤（６）の案内ノズル
（２）のノズル孔（２ａ）内面Ｃ二よって繰り返し曲げ
、引張り、ねじりのＡＪｌみ合わせ肛形され、矯正され
ながら送出されることになる。Since this embodiment has the above-mentioned configuration, first, the guide nozzle (the pitch, the eccentricity in the radial direction, The amount (offset set) is determined and shortened accordingly, and the nozzle support plate (6) is adjusted to w74, thereby processing the wire rod (a).
Set the curvature to the maximum jj term value, and in this state, the 4-motion motor (
When the rotating holder (11) is rotated from ti + 2 and the processed wire port (a) of 7-1 is transferred to J!!!, the continuously transferred processed wire (a) is transferred to each nozzle support plate (6). The inner surface of the nozzle hole (2a) of the guide nozzle (2) (2) is repeatedly bent, pulled, and twisted to form the AJl shape, and the material is delivered while being corrected.

この際、加工に４，４杓（ａ）にｈ　！Ｊ　返し曲げ、
１銀り、ねじりの組θ合わせλ形を加える藁内ノズル（
２）は各々独立的に自転自在であるから、該組み合せ敞
形を与えるときに加工線８’　（ａ）とノズル孔（２ａ
）内周面とに丁ベリ＃鮎が生じると、該案内ノズル（２
）は該摩熟力によって自転することになり、よって加工
線Ｕ　（ａ）にはすペリに握力が掛からないことになり
、加工線材（旬の外表面のＭ＊ｈ、傷付けを防止する。At this time, 4.4 ladles (a) and h! J back bend,
1. A straw nozzle that adds a combination of θ and λ shapes of silver and twist (
2) can rotate independently, so when giving the combined shape, the processing line 8' (a) and the nozzle hole (2a
) When the inner circumferential surface of the guide nozzle (2
) rotates on its own axis due to the maturing force, so no gripping force is applied to the processed wire U (a), which prevents damage to the outer surface of the processed wire (M*h).

また、案内ノズル（２）は回転ホルダ（１）の回転中心
軸１１ｉ（二対して斜設しであるから、その傾斜方向に
合わせた回転方向に１転ホルダ（１）を回転させれば、
テなわち第１図のようなときには加工線材（ａ）が供給
される方に向って時計回りに回転させれは、それは右ね
じのナツトと右ねじのボルトの螺合作用の如く、この右
ねじのボルトに相当１−る加工線材（ａ）を送出側へ送
出する作用が生じ、このことによって加工線材（ａ）を
強制的に別移送手段で杉送させる必要がないこと（二な
り、それだけ昂速を円滑なｋｂ正が行える。In addition, since the guide nozzle (2) is installed obliquely with respect to the rotation center axis 11i of the rotation holder (1), if the rotation holder (1) is rotated in a rotation direction that matches the direction of inclination,
In other words, when the processed wire rod (a) is rotated clockwise in the direction shown in Fig. 1, it is similar to the screwing action of a right-handed nut and a right-handed bolt. There is an effect of sending out the processed wire (a) corresponding to the bolt of the screw to the delivery side, and as a result, there is no need to forcibly send the processed wire (a) using a separate transfer means (second, That's how smooth the kb correction can be.

尚、本実施例ではノズル支承盤（６）　ｉ　５　（１４
、ｔなゎち案内ノズル（２）を５個使用しているが、そ
れは最低３個あれば島組み合わせ変形作用が得られるの
であり、またたとえば案内ノズル（２）間ピッチヲ大き
くするときには２個の系内ノズル（２）を抜き取り、代
わりに平座金状のカラーを介在すればよく、本実加；例
に限定されるものではない。In this embodiment, the nozzle support plate (6) i5 (14
Although five guide nozzles (2) are used, at least three guide nozzles (2) are needed to obtain the island combination deformation effect, and for example, when increasing the pitch between the guide nozzles (2), two The nozzle (2) in the system may be removed and a flat washer-like collar may be inserted instead, and the present invention is not limited to this example.

この釦明は上述の如く、案内ノズル（２）が独立的（二
自転自在Ｃ二設けられているから１回転ホルダ（１）を
回転させながら加工線材（ａ）を連続移送して、該案内
ノズル（２）のノズル孔（２ａ）内面で加工線材（Ｒ）
に緒」り返し曲げ、引張り、ねじりの組み合わせ紋形を
作用させて、加工線材（ａ）を其直ぐに矯正するとき（
二、案内ノズル（２）のノズル孔（２ａ）Ｆ’４曲は加
工線材（ａ）に圧接されて該組ろ合わせ皺ノヒを加工線
材（ａｌ　ｌ−加えるが、このときノズル孔（２ａ）内
面（二は丁ベリ摩擦が掛かり、これによって案内ノズル
（２）は自転１−ることになり、しこうして該馴番力は
加工線材（ａ）及びノズル孔（２ａ）内ｍ１には月１か
らないことになり、それだけ加工線材（Ｒ）表面に傷を
付けたり又、逆Ｃニノズル孔（２ａ）内面を厚損し、案
内ノズル（２）の寿命を低下させることがなく、しかも
これによって案内ノズル（２）の材質を若干柔らかい方
の材質とすることができ、よって−・層加工１ｉ１１ｊ
’（ａ）の外表面媚二傷を付けることがなく、また特に
それら（二よって高速矯正が可能となり、矯正能率を著
しく向上し得ることにもなり、また簡素な構成であるが
ら保守保全の面にあっても極めて有効的である。As mentioned above, this button is equipped with two independent guide nozzles (2) (two rotatable C), so the processed wire (a) is continuously transferred while rotating the holder (1), and the guide nozzle (2) is Processed wire (R) on the inner surface of the nozzle hole (2a) of the nozzle (2)
When the processed wire (a) is straightened immediately by applying a combination of repeated bending, tension, and twisting (
2. The nozzle hole (2a) F'4 curve of the guide nozzle (2) is pressed against the processed wire (a) and the combined wrinkles are applied to the processed wire (al l-), but at this time, the nozzle hole (2a) Friction is applied to the inner surface (2), which causes the guide nozzle (2) to rotate 1-1, and thus the adjustment force is 1-1 per month on the processed wire (a) and m1 inside the nozzle hole (2a). This prevents damage to the surface of the processed wire (R), damage to the inner surface of the inverted C nozzle hole (2a), and shortens the life of the guide nozzle (2). The material of the nozzle (2) can be made of a slightly softer material, so - layer processing 1i11j
It does not cause any damage to the outer surface of (a), and in particular, it enables high-speed straightening and significantly improves straightening efficiency, and although it has a simple structure, it requires less maintenance. It is extremely effective even on the surface.

以上のようシ二本発明によれば、キャリヤ等に巻取られ
た線材を高速（二、しかも線材表面（１傷を付けたり、
東向ノズルの短寿命化をすることなく良好に矯正するこ
とができる等の画期的な効果な奏する線材回転矯正装置
を提供することとなる。As described above, according to the present invention, the wire rod wound on a carrier etc.
The present invention provides a wire rod rotation straightening device that exhibits innovative effects such as being able to perform good straightening without shortening the life of the eastward nozzle.

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

図面は本発明の一実施例を示すものＣニして、第１図は
縦断面図、第２因は横断面図、第３図は使用状態図であ
る。 （ａ）・・加工線材、（１）・・［す１転ホルダ、（２
）・・案内ノズル、（２ａ）・φノズル孔。 昭和５７年８月２５日 出１人　　株式会社　白州鉄工所 発明者　　毛　　見　　ム４　−The drawings show an embodiment of the present invention. FIG. 1 is a longitudinal cross-sectional view, the second is a cross-sectional view, and FIG. 3 is a usage state diagram. (a)...Processed wire rod, (1)...[Single roll holder, (2)
)...Guide nozzle, (2a)/φ nozzle hole. Published on August 25, 1980 1 person Hakushu Iron Works Co., Ltd. Inventor Kemi Mu4 -

Claims (1)

【特許請求の範囲】 回転ホルダの中心軸線近傍に該回転中心軸線より半径方
向に所定偏位量交互に偏位させて複数個の案内ノズルを
並設し、該回転ホルダの中心軸線上に加工線材を削記各
々の案内ノズルのノズル孔を押通して配設し、１Ｊ記回
転ホルダを回転させながら加工線材を連続移送し、前記
複数個の案内ノズルのノズル孔内向で前記加工線材に繰
り返し曲げ。 引張り、ねじりの組ろ合わせ変形を作用させて加工線材
を真直シニ矯正するものであって、上記各々の案内ノズ
ルが独立的に自転目在（二設けられたことン′＃軟とす
る線材回転矯正装置。[Scope of Claims] A plurality of guide nozzles are arranged in parallel in the vicinity of the central axis of a rotary holder and alternately deviated by a predetermined amount in the radial direction from the central axis of rotation, and processing is performed on the central axis of the rotary holder. The wire is cut and placed by pushing it through the nozzle hole of each guide nozzle, and the processed wire is continuously transferred while rotating the 1J rotary holder, and repeatedly applied to the processed wire in the inward direction of the nozzle holes of the plurality of guide nozzles. bending. This is a device that straightens and straightens processed wire rods by applying a combination of tension and torsion deformation, and each of the guide nozzles described above is independently provided with an autorotation mark. Orthodontic device.