JPH05104488A - Method and device for cutting raw material - Google Patents
Method and device for cutting raw materialInfo
- Publication number
- JPH05104488A JPH05104488A JP33109591A JP33109591A JPH05104488A JP H05104488 A JPH05104488 A JP H05104488A JP 33109591 A JP33109591 A JP 33109591A JP 33109591 A JP33109591 A JP 33109591A JP H05104488 A JPH05104488 A JP H05104488A
- Authority
- JP
- Japan
- Prior art keywords
- cutting
- value
- length value
- relation
- cut
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Landscapes
- Nonmetal Cutting Devices (AREA)
Abstract
Description
【0001】[0001]
【産業上の利用分野】この特許出願に係る発明は、例え
ば、混練り機または溶解機に投入して一回の作業で処理
すべき細長い板状ゴム等の素材をして、一回の処理に適
する重量と容量と箇数になるように、自動的に素材を計
測し切断する技術に関するものである。BACKGROUND OF THE INVENTION 1. Field of the Invention The invention according to this patent application is, for example, a method of putting a raw material such as an elongated plate-like rubber into a kneading machine or a melting machine and treating it in one operation, and treating it once. The present invention relates to a technology for automatically measuring and cutting a material so that the weight, the volume, and the number suitable for are automatically measured.
【0002】[0002]
【従来の技術】従来は、例えば、混練り機または溶解機
に投入して一回で処理すべき細長い板状ゴム等の素材を
して、目測で適宜の長さの複数の細片に切断機により切
断し、全細片の重量を計測し、処理機の一回の処理重量
と比較し、重すぎるときは細片を減らし又は切り取り、
軽るすぎるときは素材を切断して加えながら、処理重量
に一致させる作業を行っていた。2. Description of the Related Art Conventionally, for example, a material such as an elongated plate-shaped rubber which is put into a kneading machine or a melting machine to be processed at once is cut and cut into a plurality of strips having an appropriate length by visual inspection. Cutting with a machine, measuring the weight of all the pieces, comparing with the processing weight of one time of the processing machine, when it is too heavy, reduce or cut the pieces,
When it was too light, the material was cut and added, and work was performed to match the processing weight.
【0003】従って従来の技術は、切断と、切断細片の
全重量の処理重量に対する比較と、細片の加減及び処理
重量との比較、との煩雑な作業の手数と時間とを要し、
処理重量と細片数と容量とが不正確になるという欠陥を
生じていた。Therefore, the conventional technique requires time and labor for complicated work of cutting, comparing the total weight of the cut pieces to the processing weight, and adjusting the weight of the cutting pieces and comparing the processing weight,
The defect was that the treated weight, the number of strips, and the volume were inaccurate.
【0004】[0004]
【発明が解決しようとする課題】本願発明は、前記従来
の細長い板状ゴム等の素材切断の欠陥一切断と、切断細
片の全重量の処理重量に対する比較と、細片の加減及び
処理重量との比較などの煩雑な作業の手数と時間とを要
し、処理重量と細片数と要領とが不正確になる−を解消
することを目的とする。DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention The invention of the present application is to compare the total weight of cut strips with the processing weight, to compare the processing weight with the total weight of the cut strips, and to adjust the weight and the processing weight of the strips. It is an object of the present invention to eliminate the inconvenience of the processing weight, the number of small pieces, and the procedure, which requires labor and time for complicated work such as comparison with.
【0005】[0005]
【課題を解決するための手段】本願発明は、四角形の横
断面を有し水平方向に長い素材を水平の一直線に沿って
送りながら厚さと幅とを自動的に計測して両計測値を求
め、その両計測値に基づき素材の比重に関連して素材の
一回の処理に適する重量値を演算し、その重量値に基づ
いて素材の一回の処理に適する全長値を演算し、その全
長値に基づいて素材の一回の処理に適する箇数値を演算
し、その全長値と箇数値とに基づいて素材の一回の処理
に適する切断回数と各切断回毎の切断長値とを演算し、
その切断長値に関連して素材の送り方向の端面から切断
すべき箇所までの距離が切断長値になるように素材を送
って停止し、素材の送りの停止に関連して素材を横断面
に平行に切断し、素材の切断終了に関連し且つ切断回数
値に基づいて前記の素材の送りと停止と切断とを切断回
数値に達するまで繰り返えす、ように順次作業すること
を特徴とする。According to the present invention, a material having a quadrangular cross section and long in the horizontal direction is fed along a horizontal straight line while automatically measuring the thickness and width to obtain both measured values. Based on the both measured values, the weight value suitable for one processing of the material is calculated in relation to the specific gravity of the material, the total length value suitable for one processing of the material is calculated based on the weight value, and the total length thereof is calculated. Calculates the numerical value suitable for one processing of the material based on the value, and calculates the number of cuttings and the cutting length value for each cutting suitable for the single processing of the material based on the total length value and the numerical value Then
In relation to the cutting length value, the material is fed and stopped so that the distance from the end face of the material in the feed direction to the point to be cut becomes the cutting length value, and the material is cross-sectioned in relation to the stopping of the material feeding. And cutting in parallel with each other, and relating to the end of the cutting of the material and repeating the feeding, stopping and cutting of the material based on the cutting count value until the cutting count value is reached, and so on. To do.
【0006】[0006]
【実施例】本願発明の実施例を図面の記載に基づいて説
明すれば次のとおりである。垂直断面が同一真円で円柱
状の複数のローラ1を中心軸線が水平になるように、等
間隔で同一水平線に回転可能に機枠に配置し、中心軸2
の全部の外周に一本のベルト3を接触し、ローラー1の
いずれか一箇の中心軸をモータ等の駆動源の駆動により
反時計方向に回転することに連動し、ベルト3と全ロー
ラ1の全中心軸2とを介し、全ローラー1を同一速度で
反時計方向へ回転するようにして、供給体4を構成する
と共に、供給体4の左端のローラー1から適宜の間隔を
保ち且つ供給体4よりも下方に、供給体4と同構成をも
つ排出体5を配置する。供給体4と排出体5との間隔に
は、上面を供給体4の全ローラー1の外周上面と同一高
さとし、上面を開放し下方へ没入する溝6と溝6の底に
緩衝体7を固定した刃受体8を機枠に固定する。供給体
4の刃受体8より右の上方には、それから離れてローラ
ー1の中心軸2の軸線方向に間隔を保って配置し、ロー
タリーエンコーダーとそれを光電作用する原点センサと
により電気的に距離を測定可能とした幅計測体9を機枠
に支持し、幅計測体9よりも垂直線上の上方には、それ
から離れて垂直方向に配置し、ロータリーエンコーダと
それを光電作用する原点センサとにより電気的に距離を
測定可能とした厚さ計測体10を機枠を支持する。刃受
体8の垂直線上の上方には、常にはそれてから離れて配
置し、下端に刃部をもつ切断刃11をして、緩衝体7に
接触し離脱するように垂直に往復動可能に、機枠に固定
し電磁力または空気力により垂直に往復動可能としたピ
ストン12をもつシリンダ13に支持し、切断刃11に
はそれと一体に上下動可能に支持し、電磁力または空気
力により水平に往復動可能としたピストン14をもつシ
リンダ15を設け、且つピストン14の左端には、切断
刃11の左側に上下平行に接近して配置し且つ上下方向
の中間支点を中心として回動可能に支持し回動方向へ弾
性力を有する薄板状の跳出板16の上端を回動可能に支
持する。排出体5の上方の供給体4よりもさらに上方に
は、機枠に固定した垂直,水平部をもつL字状の支持体
17の水平部に、水平中心軸を中心に正逆方向へ回動可
能としたステッピングモータ等のモータ18を固定し、
水平部の右端に直立した支持体17の垂直部にはモータ
18の中心軸から一体に右へ延長したねじ軸19を水平
直線を中心に正逆方向へ回動可能に支持し、ねじ軸19
には垂直,水平部をもつコ字状の移動体20の垂直部を
ねじ軸19の正逆回動に関連して水平に左右動可能にね
じこんで支持し、移動体20の水平部の下面には、垂直
部と垂直部の下端から右へ水平に延びる水平部と垂直部
の上端から支持体17へ向け斜め下へ延びる傾斜部とを
一体に形成した回動体21の垂直部の上端をローラー1
の中心軸2の平行軸線を中心に回動可能に支持し、回動
体21の傾斜部の下端には、移動体20の水平部に固定
し電磁力または空気力により垂直に往復動可能としたピ
ストン22をもつシリンダ23のピストン22の下端を
回動可能に支持する。Embodiments of the present invention will be described below with reference to the drawings. A plurality of cylindrical rollers 1 having the same perfect circle in the vertical cross section are arranged in the machine frame so as to be rotatable in the same horizontal line at equal intervals so that the central axis line becomes horizontal.
One belt 3 is brought into contact with the entire outer circumference of the roller 1, and any one of the central axes of the rollers 1 is rotated in the counterclockwise direction by the drive of a drive source such as a motor. The feeding member 4 is configured so that all the rollers 1 are rotated counterclockwise at the same speed via the central axis 2 of the feeding member 4, and the feeding member 4 keeps an appropriate distance from the left end roller 1 of the feeding member 4 and feeds the feeding member 4. A discharge body 5 having the same structure as the supply body 4 is arranged below the body 4. The distance between the supply body 4 and the discharge body 5 is such that the upper surface is at the same height as the outer peripheral upper surfaces of all the rollers 1 of the supply body 4, the upper surface is open, and the groove 6 is recessed downward and the buffer body 7 is provided at the bottom of the groove 6. The fixed blade receiver 8 is fixed to the machine frame. It is arranged above the blade receiver 8 of the feeder 4 to the right of the blade receiver 8 at a distance from the blade receiver 8 in the axial direction of the central axis 2 of the roller 1, and electrically by a rotary encoder and an origin sensor that photoelectrically operates the rotary encoder. A width measuring body 9 capable of measuring a distance is supported by a machine frame, and is arranged above the width measuring body 9 on a vertical line in a vertical direction apart from it, and a rotary encoder and an origin sensor for photoelectrically operating the rotary encoder are provided. The machine frame supports the thickness measuring body 10 capable of electrically measuring the distance. A cutting blade 11 having a blade portion at the lower end is always arranged above the blade receiver 8 on the vertical line, and can be vertically reciprocated so as to come into contact with and separate from the buffer 7. Is supported by a cylinder 13 having a piston 12 fixed to a machine frame and vertically reciprocally movable by electromagnetic force or aerodynamic force, and is supported by a cutting blade 11 so as to be vertically movable integrally therewith, and is supported by an electromagnetic force or an aerodynamic force. Is provided with a cylinder 15 having a piston 14 capable of reciprocating horizontally, and the left end of the piston 14 is disposed vertically parallel to and close to the left side of the cutting blade 11 and pivots about an intermediate fulcrum in the vertical direction. An upper end of a thin plate-like jumping plate 16 which is rotatably supported and has an elastic force in a rotating direction is rotatably supported. Above the discharge body 5 and above the supply body 4, a horizontal portion of an L-shaped support body 17 having vertical and horizontal portions fixed to the machine frame is rotated in the forward and reverse directions about the horizontal center axis. By fixing the motor 18 such as a movable stepping motor,
A screw shaft 19 integrally extending to the right from the central axis of the motor 18 is supported on the vertical portion of the support member 17 standing upright on the right end of the horizontal portion so as to be rotatable in forward and reverse directions about a horizontal straight line.
The vertical portion of the U-shaped moving body 20 having vertical and horizontal portions is supported by being horizontally screwed so as to be horizontally movable in association with the forward and reverse rotation of the screw shaft 19, and the horizontal portion of the moving body 20 An upper end of the vertical portion of the rotating body 21 integrally formed on the lower surface with a vertical portion and a horizontal portion that horizontally extends rightward from the lower end of the vertical portion and an inclined portion that extends obliquely downward from the upper end of the vertical portion toward the support body 17. The roller 1
It is rotatably supported about the parallel axis of the central axis 2, and is fixed to the horizontal portion of the moving body 20 at the lower end of the inclined portion of the rotating body 21 so that it can reciprocate vertically by electromagnetic force or aerodynamic force. The lower end of the piston 22 of the cylinder 23 having the piston 22 is rotatably supported.
【0007】また本願発明は、上記の機械的構造を備
え、それらの構造要素が下記のように順次に作動をする
ように、それらの構造要素間に介在して電気的電子的に
作用するマイクロコンピュータの演算作用を含む下記の
制御装置を備えている。モータ等の駆動源を停止しベル
ト3と共に静止している供給体4の右方の各ローラー1
の上方外周上に、混練り機または溶解機に投入して処理
すべき四角形の横断面を有し水平方向に長く摩擦と弾性
係数が大きいゴム材料の素材24を水平に載置する。押
しボタンを手操作により押して電流回路を閉鎖して作用
すると、それに関連してモーターが反時計方向に回動
し、同方向へベルト3と中心軸2が回動し、供給体4の
全ローラー1も同方向へ回動し、素材24は左へ移動す
る。素材24が左へ移動して幅計測体9と厚さ計測体1
0の位置に進入すると、それぞれの原点センサの光電作
用によるロータリーエンコーダの作動に関連して素材2
4の幅と厚さを計測し、それらの両計測値に基づき素材
の比重に基づいて、混練り機または溶解機に投入しそれ
らにより一回で処理すべき素材の重量値を演算し、その
重量値に基づいて一回で処理すべき素材の全長値を演算
し、その全長値と箇数値とに基づいて一回で処理すべき
素材の切断回数と各切断回数毎の切断長値とを演算す
る。その切断長値に関連して、モータ18を正または逆
方向へそのねじ軸19と共に回動して移動体20を左ま
たは右へ移動した後にそれら全部を停止し、それらの停
止に関連して、ピストン22が下降して停止するように
シリンダ23を作用し、ピストン22の下降と停止に関
連して、回動体21をその傾斜の反時計方向への回動を
介してその水平部を反時計方向へ回動して水平として停
止する。素材24はその左端面が回動体21の水平部に
接触すると、その接触に関連して供給体4のモータが停
止し、その停止に関連して、切断刃11が素材24の上
面に接触するまで下降して停止するようにシリンダ13
を作用,停止してピストン12を下降,停止する。切断
刃11の素材24上面への接触,停止に関連して、回動
体21の水平部が素材24の左端面から離れて停止する
ように、シリンダ23を作用,停止してピストン22を
上昇,停止し且つ回動体21を時計方向へ回動,停止す
る。回動体21の素材24からの離脱に関連して、切断
刃11の下端が刃受体8の緩衝体7に接触して停止する
ように、シリンダ13を作用,停止してピストン14を
下降,停止して素材24を横断面に平行に切断する。素
材24の切断に関連して、その素材24の切断片を排出
体5上へ跳ね出して排出体5により左へ排出するよう
に、 シリンダ15を作用,停止をくり返しピストン1
4を左右動して跳出板16を時計方向へ回動して切断刃
11から左へ離した後に反時計方向へ回動して切断刃1
1に接触し、排出体5の駆動源を作動した後に停止す
る。跳出板16の切断刃11への接触に関連して、切断
刃11が素材24の上面から上方へ上昇し停止するよう
に、シリンダ13を作用,停止してピストン12を上昇
し停止する。切断刃11の上昇,停止に関連し且つ切断
回数値に関連して、前記の素材の供給と停止と切断と切
断片の排出とを切断回数値に達するまで繰り返えした後
に、機械的構造と制御装置の作動と作用を休止する。The present invention is also provided with the above-mentioned mechanical structure, and the micro-elements electrically and electronically acting between the structural elements so that the structural elements operate sequentially as described below. It is equipped with the following control device including the arithmetic operation of a computer. Each roller 1 on the right side of the supply body 4 which stops the drive source such as a motor and stands still together with the belt 3.
A rubber material blank 24 having a quadrangular cross section to be processed by being placed in a kneader or a dissolver and having a long horizontal direction and a large friction and elastic coefficient is horizontally placed on the upper outer periphery of the. When the push button is manually pressed to close and actuate the current circuit, the motor rotates in the counterclockwise direction in association therewith, the belt 3 and the central shaft 2 rotate in the same direction, and all the rollers of the supply body 4 rotate. 1 also rotates in the same direction, and the material 24 moves to the left. The material 24 moves to the left and the width measuring body 9 and the thickness measuring body 1
When entering the position of 0, the material 2 is associated with the operation of the rotary encoder by the photoelectric effect of each origin sensor.
The width and thickness of 4 are measured, and the weight value of the material to be processed at one time is calculated based on the specific gravity of the material on the basis of the specific gravity of the material. Calculate the total length value of the material to be processed at one time based on the weight value, and calculate the number of cuts of the material to be processed at once and the cutting length value for each number of cuts based on the total length value and the numerical value. Calculate In relation to the cutting length value, the motor 18 is rotated in the forward or reverse direction together with its screw shaft 19 to move the moving body 20 to the left or right, and then all of them are stopped. , The cylinder 23 is actuated so that the piston 22 descends and stops, and in association with the descent and stop of the piston 22, the rotating body 21 is counteracted on its horizontal portion through the rotation of its inclination in the counterclockwise direction. Turn clockwise and stop horizontally. When the left end surface of the material 24 comes into contact with the horizontal portion of the rotating body 21, the motor of the supply body 4 stops in association with the contact, and the cutting blade 11 comes into contact with the upper surface of the material 24 in association with the stop. Cylinder 13 to descend and stop
To stop and lower the piston 12 to stop. With respect to the contact and stop of the cutting blade 11 with the upper surface of the material 24, the cylinder 23 is actuated and stopped so that the horizontal portion of the rotating body 21 is separated from the left end surface of the material 24, and the piston 22 is raised. Then, the rotating body 21 is rotated clockwise and stopped. In association with the detachment of the rotating body 21 from the material 24, the cylinder 13 is actuated and stopped so that the lower end of the cutting blade 11 comes into contact with the buffer body 7 of the blade receiving body 8 and stops, and the piston 14 descends. Stopping and cutting the material 24 parallel to the cross section. In relation to the cutting of the material 24, the cylinder 15 is repeatedly operated and stopped so that the cut piece of the material 24 is ejected onto the discharge body 5 and discharged to the left by the discharge body 5.
4 is moved left and right to rotate the jumping plate 16 clockwise to separate it from the cutting blade 11 to the left, and then to rotate counterclockwise to rotate the cutting blade 1.
1 and actuates the drive source of the ejector 5 and then stops. In association with the contact of the jumping plate 16 with the cutting blade 11, the cylinder 13 is actuated and stopped so that the cutting blade 11 rises from the upper surface of the material 24 and stops, and the piston 12 rises and stops. In connection with the rising and stopping of the cutting blade 11 and the cutting number value, the above-mentioned material supply and stopping, cutting and discharging of the cutting pieces are repeated until the cutting number value is reached, and then the mechanical structure And stop the operation and operation of the control device.
【0008】[0008]
【発明の効果】本願発明は、前記の機械的構造と制御装
置の作用とにより構成したので、下記の効果を奏する。
つまり、従来の技術の欠陥−例えば混練り機または溶解
機に投入して一回に処理すべき細長い板状ゴム等の素材
を一回の処理に適する重量と要領と箇数になるように、
切断と、切断細片の全重量の処理重量に対する比較と、
細片の加減及び処理重量との比較、などの煩雑な作業の
手数と時間とを要し、処理重量と細片の数と容量とが不
正確になる−を解消し、自動的に素材を装置へ供給し計
測し切断し排出することができる。Since the present invention is constituted by the mechanical structure and the operation of the control device, it has the following effects.
That is, the defects of the conventional technology-for example, to put a material such as a long thin plate-shaped rubber to be processed at one time by putting it in a kneading machine or a dissolving machine into a weight, a procedure and a number suitable for one processing,
Cutting and comparing the total weight of the cutting strip to the processing weight,
It takes time and time for complicated work such as adjusting the amount of strips and comparing with the processing weight, and the processing weight, the number of strips and the volume become inaccurate. It can be supplied to the device, measured, cut, and discharged.
【図1】機械的構造を示した正面図である。FIG. 1 is a front view showing a mechanical structure.
4 供給体 9 幅計測体 10 厚さ計測体 11 切断刃 16 跳出板 21 回動体 24 素材 4 Feeding Body 9 Width Measuring Body 10 Thickness Measuring Body 11 Cutting Blade 16 Jump Plate 21 Rotating Body 24 Material
Claims (4)
材を水平の一直線に沿って送りながら、厚さと幅とを自
動的に計測して両計測値を求め、 その両計測値に基づき素材の比重に関連して、素材の一
回の処理に適する重量値を演算し、 その重量値に基づいて、素材の一回の処理に適する全長
値を演算し、 その全長値に基づいて、素材の一回の処理に適する箇数
値を演算し、 その全長値と箇数値とに基づいて、素材の一回の処理に
適する切断回数値と各切断回毎の切断長値とを演算し、 その切断長値に関連して、素材の送り方向の端面から切
断すべき箇所までの距離が切断長値になるように、素材
を送って停止し、 素材の送りの停止に関連して、素材を横断面に平行に切
断し、 素材の切断終了と切断回数値に基づいて、前記の素材の
送りと停止と切断とを切断回数値に達するまで繰り返
す、 ように順次作業することを特徴とする素材切断方法。1. A material having a rectangular cross section and long in the horizontal direction is fed along a horizontal straight line, and the thickness and width are automatically measured to obtain both measured values, and based on the both measured values. In relation to the specific gravity of the material, a weight value suitable for one processing of the material is calculated, based on the weight value, a total length value suitable for one processing of the material is calculated, and based on the total length value, Calculate the numerical value suitable for one-time processing of the material, and based on the total length value and the numerical value, calculate the cutting number value and the cutting length value for each cutting time suitable for the one-time processing of the material, In relation to the cutting length value, the material is fed and stopped so that the distance from the end face in the feed direction of the material to the point to be cut becomes the cutting length value. Cut parallel to the cross section, and based on the cutting end value of the material and the number of times of cutting, feed the material Material cutting method and repeating until the stop and the cutting and the cutting frequency value, as sequentially work.
材を水平の一直線に沿って送りながら、厚さと幅とを自
動的に計測して両計測値を求め、 その両計測値に基づき素材の比重に関連して、素材の一
回の処理に適する重量値を演算し、 その重量値に基づいて、素材の一回の処理に適する全長
値を演算し、 その全長値に基づいて、素材の一回の処理に適する箇数
値を演算し、 その全長値と箇数値とに基づいて、素材の一回の処理に
適する切断回数値と各切断回毎の切断長値とを演算し、 その切断長値に関連して、素材の送り方向端面から切断
すべき箇所までの距離が切断長値となるように、素材を
送って停止し、 素材の送りの停止に関連して、素材を横断面に平行に切
断し、 素材の切断終了に関連して、素材の切断片を素材から送
り方向へ離脱し、 切断片の離脱と切断回数値とに関連して、前記の素材の
送りと停止と切断と切断片の離脱とを切断回数値に達す
るまで繰り返えす、 ように順次作業することを特徴とする素材切断方法。2. A material having a rectangular cross section and long in the horizontal direction is fed along a horizontal straight line, and the thickness and width are automatically measured to obtain both measured values, and based on the both measured values. In relation to the specific gravity of the material, a weight value suitable for one processing of the material is calculated, based on the weight value, a total length value suitable for one processing of the material is calculated, and based on the total length value, Calculate the numerical value suitable for one-time processing of the material, and based on the total length value and the numerical value, calculate the cutting number value and the cutting length value for each cutting time suitable for the one-time processing of the material, In relation to the cutting length value, the material is fed and stopped so that the distance from the end face of the material in the feed direction to the point to be cut becomes the cutting length value. Cut parallel to the cross-section and feed the piece of material from the material in relation to the end of material cutting In relation to the detachment of the cut piece and the value of the number of cuts, the above-mentioned material feeding and stopping, cutting and detachment of the piece of cut are repeated until the value of the number of cuts is reached. Characteristic material cutting method.
を水平に載置して水平の一方向へ送り且つ停止する供給
体と、 供給体の素材送り方向の外方上方に配置し垂直に上下動
する切断刃と、 供給体の上方に水平と垂直に各別に配置し、それぞれ素
材の移送中にその幅と厚さの方向の距離を測定して両計
測値を発生する幅計測体及び厚さ計測体と、 切断刃よりも供給体の素材送り方向の外方の上方に配置
し、供給体の素材送りの正,逆方向へ移動し且つ素材の
送り方向端面に接触,離脱するように回動する回動体
と、 幅,厚さ計測値に基づき素材の比重に関連して素材の一
回の処理に適する重量値を演算し、重量値に基づいて素
材の一回の処理に適する全長値を演算し、全長値に基づ
いて素材の一回の処理に適する箇数値を演算し、全長値
と箇数値に基づいて素材の一回の処理に適する切断回数
値と各切断回毎の切断長値を演算し、切断長値に関連し
て素材の送り方向端面と切断刃の上下動経路との距離が
切断長値になるように回動体を移動,回動して素材の送
り方向端面に接触して停止し素材を停止し、素材の停止
に関連して切断刃を下降して素材を横断面に平行に切断
し、素材の切断終了と切断回数値に関連して前記の素材
の送りと停止と切断とを切断回数値に達するまで繰り返
えす、ようにした制御装置、とを備えた素材切断装置。3. A supply body having a rectangular cross section and horizontally long material placed horizontally to feed and stop in one horizontal direction, and a supply body disposed outside and above the supply direction of the supply body. A cutting blade that moves vertically up and down and a horizontal and vertical position above the supply unit, and measures the distance in the width and thickness directions during material transfer to generate both measurement values. It is placed above the body and thickness measurement body and the cutting blade, outside the material feeding direction of the feeding body, moves in the forward and reverse directions of the material feeding of the feeding body, and contacts with and separates from the end face of the material feeding direction. Based on the measured value of width and thickness, the rotating body that rotates to calculate the weight value suitable for one-time processing of the material, and the one-time processing of the material based on the weight value. The total length value that is suitable for the material is calculated, and the numerical value suitable for one processing of the material is calculated based on the total length value. Based on the numerical value, the cutting number value suitable for one processing of the material and the cutting length value for each cutting operation are calculated, and the feed direction end face of the material and the vertical movement path of the cutting blade are related to the cutting length value. Move and rotate the rotating body so that the distance becomes the cutting length value, stop by contacting the end face of the material in the feed direction, stop the material, and lower the cutting blade in relation to stopping the material to traverse the material. And a control device for cutting the material in parallel with the surface and repeating the feeding, stopping and cutting of the material in relation to the completion of cutting of the material and the value of the number of times of cutting until the value of number of times of cutting is reached. Material cutting device.
を水平に載置して水平の一方向へ送り且つ停止する供給
体と、 供給体の素材送り方向の外方上方に配置し垂直に上下動
する切断刃と常には切断刃の素材送り方向側に接触し同
方向へ離脱するように作動する跳出板と、 供給体の上方に水平と垂直に各別に配置し、それぞれ素
材の移送中のその幅と厚さの方向の距離を測定して両計
測値を発生する幅計測体及び厚さ計測体と、切断刃より
も供給体の素材送り方向の外方の上方に配置し、供給体
の素材送りの正,逆方向へ移動し且つ素材の送り方向端
面に接触,離脱するように回動する回動体と、 幅,厚さ計測値に基づき素材の比重に関連して素材の一
回の処理に適する重量値を演算し、重量値に基づいて素
材の一回の処理に適する全長値を演算し、全長値に基づ
いて素材の一回の処理に適する箇数値を演算し、全長値
と箇数値に基づいて素材の一回の処理に適する切断回数
値と各切断回毎の切断長値を演算し、切断長値に関連し
て素材の送り方向端面と切断刃の上下動経路との距離が
切断長値になるように回動体を移動,回動して素材の送
り方向端面に接触して停止し素材を停止し、素材の停止
に関連して切断刃を下降して素材を横断面に平行に切断
し、素材の切断終了に関連して跳出板を切断刃から素材
送り方向へ離脱して素材の切断片を素材からその送り方
向へ離脱し、切断片の離脱と切断回数値とに関連して前
記の素材の送りと停止と切断とを切断回数値に達するま
で繰り返えすようにした制御装置、とを備えた素材切断
装置。4. A supply unit for horizontally placing a horizontally long material having a quadrangular cross section, feeding it in one horizontal direction and stopping it, and arranging it on the outer side above the material feeding direction of the supply unit. The cutting blades that move vertically and the jumping plate that always operates to come into contact with the material feeding direction side of the cutting blades and separate in the same direction, and horizontally and vertically above the feeder, separately and separately. It is placed above the width measuring element and the thickness measuring element, which measure the distances in the width and thickness directions during transfer, and generate both measured values, and outside the feed element in the material feeding direction than the cutting blade. , A rotating body that moves in the forward and reverse directions of the material feeding of the supply body and rotates so as to come in contact with and separate from the end face of the material in the feeding direction, and the material related to the specific gravity of the material based on the width and thickness measurement values Calculate the weight value suitable for one-time processing, and based on the weight value, the total length value suitable for one-time processing of the material Calculate, calculate the numerical value suitable for one processing of the material based on the total length value, and based on the total length value and the numerical value the number of cutting times suitable for one processing of the material and the cutting length value for each cutting time Is calculated, and the rotating body is moved and rotated so that the distance between the end face of the material in the feed direction and the vertical movement path of the cutting blade becomes the cutting length value in relation to the cutting length value. Stop to stop the material, lower the cutting blade in relation to stopping the material to cut the material parallel to the cross section, and move the jumping plate from the cutting blade in the material feed direction in relation to the end of cutting the material. The material is cut off and the cut pieces of the material are separated from the material in the feeding direction, and the feeding, stopping and cutting of the material are repeated until the cut number value is reached in relation to the cut piece separation and the cut number value. The material cutting device including the control device as described above.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP33109591A JPH07280B2 (en) | 1991-10-14 | 1991-10-14 | Material cutting method and equipment |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP33109591A JPH07280B2 (en) | 1991-10-14 | 1991-10-14 | Material cutting method and equipment |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JPH05104488A true JPH05104488A (en) | 1993-04-27 |
| JPH07280B2 JPH07280B2 (en) | 1995-01-11 |
Family
ID=18239802
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP33109591A Expired - Fee Related JPH07280B2 (en) | 1991-10-14 | 1991-10-14 | Material cutting method and equipment |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH07280B2 (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0886134A2 (en) * | 1993-12-08 | 1998-12-23 | Koenig & Bauer Aktiengesellschaft | Reelstand |
-
1991
- 1991-10-14 JP JP33109591A patent/JPH07280B2/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| EP0886134A2 (en) * | 1993-12-08 | 1998-12-23 | Koenig & Bauer Aktiengesellschaft | Reelstand |
| EP0886134A3 (en) * | 1993-12-08 | 2000-05-31 | Koenig & Bauer Aktiengesellschaft | Reelstand |
Also Published As
| Publication number | Publication date |
|---|---|
| JPH07280B2 (en) | 1995-01-11 |
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