JPH0275515A - Divisional feeding method of work and device thereof - Google Patents
Divisional feeding method of work and device thereofInfo
- Publication number
- JPH0275515A JPH0275515A JP22714188A JP22714188A JPH0275515A JP H0275515 A JPH0275515 A JP H0275515A JP 22714188 A JP22714188 A JP 22714188A JP 22714188 A JP22714188 A JP 22714188A JP H0275515 A JPH0275515 A JP H0275515A
- Authority
- JP
- Japan
- Prior art keywords
- conveyor
- dividing
- speed
- works
- workpiece
- 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
- 238000000034 method Methods 0.000 title claims description 12
- 238000009825 accumulation Methods 0.000 claims description 47
- 230000032258 transport Effects 0.000 claims description 4
- 230000002265 prevention Effects 0.000 abstract 1
- 238000004806 packaging method and process Methods 0.000 description 15
- 230000005540 biological transmission Effects 0.000 description 5
- 238000001514 detection method Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 2
- 235000018185 Betula X alpestris Nutrition 0.000 description 1
- 235000018212 Betula X uliginosa Nutrition 0.000 description 1
- 230000001133 acceleration Effects 0.000 description 1
- 230000001186 cumulative effect Effects 0.000 description 1
- 230000002950 deficient Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
Landscapes
- Special Conveying (AREA)
- Control Of Conveyors (AREA)
- Intermediate Stations On Conveyors (AREA)
- Attitude Control For Articles On Conveyors (AREA)
Abstract
Description
【発明の詳細な説明】
(産業上の利用分野)
本発明は例えば包装機に被包装物を複数個一組で順次供
給する様な場合に適用されるワークの分割供給方法とそ
の装置に関する。DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a method and apparatus for dividing a workpiece, which is applied when, for example, a plurality of items to be packaged are sequentially supplied to a packaging machine as a set.
(従来の技術)
従来、ワークの分割供給手段としては、例えば特公昭6
2−36930号公報や特開昭49−83593号公報
所載の手段が存在する。この手段は第5図の如く、累積
コンベア3eによって多数のワーク2・・・をきつきつ
状態で移送させて、該ワーク2・・・を累積コンベア3
aよりも高速の分割用のコンベア5e側に送出すること
により、その速度差を利用してコンベア5e上で各ワー
ク2・・・毎に隙間Sを設ける手段である。この手段に
よれば、累積コンベア3eの前段側へのワーク投入をア
トランダムに行っても、その後確実にワーク2・・・を
一定間隔で分割供給できて都合がよい。又、一定間隔で
分割されたワーク2・・・の相互間には、同図の如く別
途設けた供給コンベア7のアタッチメント11を容易に
進入させることができて、包装機8側へのワーク供給を
確実に行えるのである。(Prior art) Conventionally, as a dividing supply means of a workpiece, for example,
There are means described in Japanese Patent Laid-open No. 2-36930 and Japanese Patent Application Laid-Open No. 49-83593. This means, as shown in FIG.
This is a means of providing a gap S for each workpiece 2 on the conveyor 5e by sending it to the dividing conveyor 5e, which is faster than the dividing conveyor 5e, by utilizing the speed difference. According to this means, even if the workpieces are randomly introduced to the front stage side of the accumulation conveyor 3e, the workpieces 2... can be reliably divided and supplied at regular intervals thereafter, which is convenient. In addition, as shown in the figure, the attachment 11 of the separately provided supply conveyor 7 can be easily inserted between the works 2 divided at regular intervals, and the work can be fed to the packaging machine 8 side. This can be done reliably.
とごろで、実際の包装作業ではワーク2を一個ずつ分離
供給させるだけではなく、複数のワークを一組として包
装機側に供給させたい場合が多々ある。In actual packaging operations, it is often desired not only to separate and feed the works 2 one by one, but also to feed a plurality of works 2 as a set to the packaging machine.
しかるに、前記従来のものでは、コンベア3eによって
連続状態で移送させたワーク2を二個或いは三個ずつに
分割させることはその機構上到底不可能である。また、
従来ではコンベアによって一連に移送されてくる多数の
ワークを高速で連続して二個或いは三個に分割させるた
めの手段は何ら開発されていないのが実情であった。However, in the conventional apparatus, it is impossible due to its mechanism to divide the workpiece 2 continuously transferred by the conveyor 3e into two or three pieces. Also,
Conventionally, no means has been developed for continuously dividing a large number of workpieces conveyed by a conveyor into two or three pieces at high speed.
そこで、従来ではその対応策として、第6図(イ)、(
ロ)の様に、分割用コンベア5eよりも線速度が早く設
定された供給コンベア7のアタッチメント11のピッチ
Pを大きくして、二個或いは三個のワーク2を一個のア
タッチメント11で押動させる様に調整していたのが実
情であった。Therefore, conventional countermeasures have been taken as shown in Figures 6 (a) and (
As shown in b), the pitch P of the attachment 11 of the supply conveyor 7 whose linear speed is set higher than that of the dividing conveyor 5e is increased, and two or three workpieces 2 are pushed by one attachment 11. The reality was that they were adjusting accordingly.
(発明が解決しようとする課題)
而して、前記従来の手段は、第7図(イ)の如く一個ず
つ相互に間隔S+、S2を隔てた複数(例えば三個)の
ワーク2・・・毎にアタッチメント11を挿入させるも
のであるために、該アタッチメント11のピッチPは、
同図(ロ)の如く三個のワーク2・・・の全長Laより
も、S、、 S2及びアタッチメント11をワーク間に
挿入させるための余裕寸法す、、 b2の合計分だけ大
きくする必要がある。(Problem to be Solved by the Invention) As shown in FIG. 7(a), the conventional means has a plurality of (for example, three) works 2 separated from each other by intervals S+ and S2... Since the attachment 11 is inserted every time, the pitch P of the attachment 11 is as follows.
As shown in the same figure (b), it is necessary to make the total length La of the three workpieces 2... larger by the sum of the allowances for inserting S, S2 and the attachment 11 between the workpieces. be.
しかるに、アタッチメント11のピッチPがワークの全
長Laに比べて余分に長くなれば、包装機へのワーク投
入を行う際にはアタッチメント11の移送速度をワーク
の全長Laよりも長い寸法針だけ包装機側の運転速度よ
りも高速にせねばならない。However, if the pitch P of the attachment 11 is longer than the total length La of the workpiece, when loading the workpiece into the packaging machine, the transfer speed of the attachment 11 may be changed so that the needle length is longer than the total length La of the workpiece. It must be faster than the driving speed on the other side.
その結果、包装機の速度とワーク2の投入速度とには大
きな差が生じて包装機側に投入されるワークにずれが発
生する等、これが不良包装を発生させる大きな原因とな
り、実用上支障を生じていたのである。As a result, there is a large difference between the speed of the packaging machine and the speed at which workpiece 2 is introduced, causing a shift in the workpieces being introduced into the packaging machine, which is a major cause of defective packaging and poses a practical problem. It was happening.
この様な難点は、何れにしても連続して供給されるワー
クを所望の個数毎に適切に分割して実用的な速さで包装
機側に移送供給できれば解決できるものであり、本発明
は正にこの様な要望を達成することを課題として発明さ
れたものである。In any case, such difficulties can be solved if the continuously supplied workpieces can be appropriately divided into desired number of pieces and transferred and fed to the packaging machine at a practical speed. It was invented with the aim of achieving exactly this kind of demand.
(課題を解決するための手段)
本発明は累積コンベアの後段側の分割用コンベアを従来
の如く常時一定速度で駆動させるのではなく、分割用コ
ンベアが累積コンベアから所望の個数のワークを受領す
る都度、当該複数個のワークの移送速度を前段の累積コ
ンベアよりも高速移送させ、これによって当該複数個の
ワークを移送コンベア上のワークから離反させて分割す
るという全く新規な技術思想の下に発明されたものであ
る。(Means for Solving the Problems) The present invention does not drive the dividing conveyor on the downstream side of the accumulating conveyor at a constant speed as in the past, but instead allows the dividing conveyor to receive a desired number of works from the accumulating conveyor. This invention is based on a completely new technical idea of transferring the plurality of workpieces at a higher speed than the preceding accumulation conveyor each time, thereby separating the plurality of workpieces from the workpieces on the transfer conveyor and dividing them. It is what was done.
すなわち、本発明は、累積コンベア3によってその前後
が相互に当接した配列状態で移送される複数のワーク2
・・・を、該累積コンベア3の後段側に配置された分割
用コンベア5の相互に対向して設けられた駆動ベルト6
、6a間に受け渡して前記累積コンベア3と同一速度で
ワーク2・・・を下流側に移送せしめ、その後前記駆動
ベルト6.6aが所望の個数のワーク2・・・を挟んだ
際に該駆動ベルト6+6aによるワーク2・・・の移送
速度を累積コンベア3側よりも高速に加速し、次の先頭
のワーク2dが駆動ベルト6.68間に挟まれる以前1
こ該駆動ベルト6.6aを元の運転速度に戻す、ワーク
の分割供給方法である。That is, in the present invention, a plurality of works 2 are transferred by an accumulation conveyor 3 in an array state in which the front and back are in contact with each other.
. . . drive belts 6 provided opposite to each other on the dividing conveyor 5 disposed on the downstream side of the accumulation conveyor 3.
, 6a to transfer the workpieces 2... to the downstream side at the same speed as the accumulation conveyor 3, and then when the drive belt 6.6a has sandwiched a desired number of workpieces 2... The transport speed of the workpieces 2... by the belts 6+6a is accelerated to a higher speed than that of the accumulating conveyor 3 side, and the next leading workpiece 2d is sandwiched between the drive belts 6.68 and 1.
This is a workpiece feeding method in which the drive belt 6.6a is returned to its original operating speed.
また、上記方法を実施するための本発明に係る装置は、
複数のワーク2・・・の前後部を相互に当接させて移送
する累積コンベア3と、該累積コンベア3の後段側に配
置されて該累積コンベア3から順次受け渡されるワーク
2・・・を相互に対向して設けられた駆動ベルト816
aにより挾んで移送可能な速度可変の分割用コンベア5
と、該分割用コンベア5の駆動ベルト6.6aに挟まれ
たワーク2の個数が所望の個数に達した際にこれを検知
して前記分割用コンベア5の線速度を累積コンベア3よ
りも高速に増速させるためのタイミング信号を発信する
増速信号発信手段24と、該増速信号発信手段24から
のタイミング信号の発信後において累積コンベア3上を
移送される次のワーク2dが分割用コンベア5の駆動ベ
ルト6、6a間に挟まれる以前に累積コンベア3よりも
高速に増速された分割用コンベア5を累積コンベア3と
同一速度に減速させるためのタイミング信号を発信する
減速信号発信手段25とからなる、ワークの分割供給装
置である。Furthermore, the apparatus according to the present invention for carrying out the above method includes:
An accumulation conveyor 3 transports a plurality of works 2 with their front and rear abutting against each other, and works 2 placed on the downstream side of the accumulation conveyor 3 and sequentially delivered from the accumulation conveyor 3. Drive belts 816 facing each other
Variable speed dividing conveyor 5 that can be pinched and transferred by a
When the number of workpieces 2 sandwiched between the drive belts 6.6a of the dividing conveyor 5 reaches a desired number, this is detected and the linear speed of the dividing conveyor 5 is set higher than that of the cumulative conveyor 3. A speed increasing signal transmitting means 24 transmits a timing signal for increasing the speed, and after the timing signal is transmitted from the speed increasing signal transmitting means 24, the next workpiece 2d transferred on the accumulation conveyor 3 is transferred to the dividing conveyor. Deceleration signal transmitting means 25 for transmitting a timing signal for decelerating the dividing conveyor 5, which was accelerated to a higher speed than the accumulating conveyor 3 before being sandwiched between the drive belts 6 and 6a of the accumulating conveyor 3, to the same speed as the accumulating conveyor 3. This is a workpiece division supply device consisting of:
(作用)
上記構成の分割供給方法では、先ずワーク2・・・が累
積コンベア3から分割用コンベア5側に複数個受け渡さ
れても、両コンベア3,5の移送速度が同一であるから
当該複数個のワーク2・・・の夫々の間に隙間は生じな
い。また、駆動ベルト6.6a間に複数個のワーク2・
・・が挟まれた状態に於いて分割用コンベア5の速度が
高速になれば、当該駆動ベルト6.6aに挟まれた複数
個のワークが累積コンベア3側のワークよりも高速で移
送されて、これら複数個のワークと累積コンベア3上の
ワーク側との間には隙間が発生し、分割用コンベア5上
の複数個のワークを一組としてその下流側に供給できる
のである。更に、前記分割用コンベア5の増速は累積コ
ンベア3上の次のワークが分割用コンベア5側に受け渡
される前に終了するから、累積コンベア3上の次のワー
ク群はその前後を相互に当接させた状態のまま再度分割
用コンベア5側に受け渡され、上記の複数個一組のワー
ク分割供給が継続して行えるのである。(Function) In the dividing supply method with the above configuration, first, even if a plurality of works 2... are transferred from the accumulation conveyor 3 to the dividing conveyor 5, the transfer speeds of both conveyors 3 and 5 are the same, so the corresponding No gaps are created between each of the plurality of works 2.... Moreover, a plurality of workpieces 2 and 2 are placed between the drive belts 6.
If the speed of the dividing conveyor 5 becomes high in a state where ... is sandwiched, the plurality of works sandwiched by the drive belt 6.6a will be transferred at a higher speed than the works on the accumulation conveyor 3 side. A gap is generated between these plural works and the work on the accumulation conveyor 3, so that the plural works on the dividing conveyor 5 can be supplied as a set to the downstream side. Furthermore, since the speed increase of the dividing conveyor 5 is completed before the next workpiece on the accumulation conveyor 3 is delivered to the dividing conveyor 5 side, the next group of works on the accumulation conveyor 3 will not move forward or backward. The workpieces are transferred to the dividing conveyor 5 again while in contact with each other, and the above-mentioned divisional supply of a plurality of workpieces into a set can be continuously performed.
また、上記構成の分割供給装置に於いては、分割用コン
ベア5を累積コンベア3と同一速度に設定した上で、累
積コンベア3から分割用コンベア5側にワーク2・・・
を受け渡して、該ワーク2・・・を駆動ベルト6.6a
により挟んで下流側に移送できる。而して、累積コンベ
ア3の駆動ベルト6.6aが所望の個数のワーク2・・
・を挟んだ際にはこれを増速信号発信手段24により検
知させて、そのタイミング信号が発信された際に分割用
コンベア5を累積コンベア3よりも高速に増速させれば
、尚該所望個数のワーク2・・・を累積コンベア3上の
ワークよりも高速で移送してその分割が行える。又、そ
の後累積コンベア3上の次のワーク2dが分割用コンベ
ア5の駆動ベルトLBa間に挟まれる以前に減速信号発
信手段25からタイミング信号を発信させて、その際に
累積コンベア3の速度を累積コンベア3と同一速度に戻
せば、前記累積コンベア3上の先頭のワーク2dが一個
だけ分離される様なことがなく、上記本発明に係るワー
クの分割供給方法を適正に実施できるのである。In addition, in the dividing supply device having the above configuration, the dividing conveyor 5 is set to the same speed as the accumulating conveyor 3, and then the workpieces 2...
Transfer the workpiece 2... to the drive belt 6.6a.
It can be pinched and transferred to the downstream side. Thus, the drive belt 6.6a of the accumulation conveyor 3 moves the desired number of works 2...
If the timing signal is transmitted, the dividing conveyor 5 can be accelerated to a higher speed than the accumulating conveyor 3. The number of works 2... can be transferred and divided at a higher speed than the works on the accumulation conveyor 3. Furthermore, before the next workpiece 2d on the accumulating conveyor 3 is sandwiched between the drive belts LBa of the dividing conveyor 5, a timing signal is transmitted from the deceleration signal transmitting means 25, and at that time, the speed of the accumulating conveyor 3 is accumulated. If the speed is returned to the same as that of the conveyor 3, the leading workpiece 2d on the accumulation conveyor 3 will not be separated, and the workpiece division supply method according to the present invention can be properly implemented.
(実施例)
以下、本発明の実施例について図面を参照して説明する
。(Example) Hereinafter, an example of the present invention will be described with reference to the drawings.
第1図に於いて本発明に係る装置の構成の一例から説明
すれば、同図中、1はワーク2の生産又は加工装置等に
接続される移送コンベア。3はその後段側に接続された
累積コンベアで、ワーク2の上下面を挾む一対の駆動ベ
ルト4,4aを備えている。又、該累積コンベア3は当
該コンベア3にて移送されるワーク2・・・の各前後部
が相互に当接した押せ押せ状態となる様にその線速度ν
aが移送コンベア1の線速度vbよりも低速に設定され
ている。Referring to FIG. 1, an example of the configuration of the apparatus according to the present invention will be explained. In the figure, 1 is a transfer conveyor connected to a production or processing apparatus for a workpiece 2. Reference numeral 3 denotes an accumulation conveyor connected to the downstream side, and is provided with a pair of drive belts 4, 4a that sandwich the upper and lower surfaces of the workpiece 2. Further, the accumulation conveyor 3 is controlled at a linear velocity ν such that the front and rear parts of the workpieces 2 transferred by the conveyor 3 are in a pressed state where they are in contact with each other.
a is set lower than the linear velocity vb of the transfer conveyor 1.
5は累積コンベア3の後段側に配!された分割用コンベ
アで、累積コンベア3と同様にワーク2の上下面を挾ん
で移送するための上下対向した一対の循環駆動自在な駆
動ベルト6.6aを備えている。該分割用コンベア5は
後述する如く累積コンベア3とは独立してそのワーク移
送速度■が増減変更自在である。7は該分割用コンベア
5の後部位置からその後方の包装機8のフォーマ9に渡
って設けられた供給コンベアで、循環駆動自在なチェー
ン10に複数のワーク抑圧用のアタッチメント11を所
定の一定ピッチで取付けたものである。尚、該アタッチ
メント11は分割用コンベア5の後部位置に於いて起立
状態でワーク移送高さよりも上方に突出してワーク2・
・・の押圧が可能となる様にその移動軌跡が設定されて
いる。よって、分割用コンベア5の下側のベルト6aは
、例えば二本の幅狭状のベルト6a+ 5aが並設され
てその相互間にアタッチメント11が進入する様に形成
されたものである。5 is placed on the latter side of the accumulation conveyor 3! Similar to the accumulation conveyor 3, this dividing conveyor is equipped with a pair of drive belts 6.6a which are vertically opposed and can be freely driven in circulation to sandwich and transfer the upper and lower surfaces of the workpieces 2. As will be described later, the dividing conveyor 5 can increase or decrease its work transfer speed independently of the accumulation conveyor 3. Reference numeral 7 denotes a supply conveyor installed from the rear part of the dividing conveyor 5 to the former 9 of the packaging machine 8 behind it, in which a plurality of attachments 11 for suppressing workpieces are connected to a chain 10 that can be driven in circulation at a predetermined constant pitch. It was installed with. Note that the attachment 11 is in an upright position at the rear of the dividing conveyor 5 and protrudes above the workpiece transfer height to transfer the workpieces 2 and 2.
The movement locus is set so that it is possible to press .... Therefore, the belt 6a on the lower side of the dividing conveyor 5 is formed such that, for example, two narrow belts 6a+5a are arranged in parallel and the attachment 11 enters between them.
次に、前記各コンベアの駆動機構を第2図を参照して説
明する(尚、累積コンベア3と分割用コンベア5は上下
重合するベルト4+ 4as sl 6aを便宜上位置
ずれさせて図示している)。Next, the drive mechanism of each of the conveyors will be explained with reference to FIG. 2 (the accumulating conveyor 3 and the dividing conveyor 5 are shown with the vertically overlapping belts 4+4as sl 6a shifted in position for convenience). .
・ 同図中、12は変速9113を介して累積コンベ
ア1を駆動するためのモータ。14は供給コンベア7を
スプロケット15.15a、 15bを介して駆動する
ための駆動軸で、供給コンベア7のアタッチメント11
が−ピッチ移動する際に一回転を行う所謂−回転軸とし
て構成され、モータ(図示せず)により回転自在である
。16は前記駆動軸14にスブロケッ[7,17aを介
して駆動連結された変速機で、その出力軸のスプロケッ
ト18は累積コンベア3の駆動ベルト4.4aの駆動用
スプロケット19及びギヤ19aと駆動連結されている
。- In the same figure, 12 is a motor for driving the accumulation conveyor 1 via a speed change 9113. Reference numeral 14 denotes a drive shaft for driving the supply conveyor 7 via sprockets 15.15a and 15b, and the attachment 11 of the supply conveyor 7.
The shaft is configured as a so-called rotating shaft that rotates once when the shaft moves in pitch, and is rotatable by a motor (not shown). Reference numeral 16 denotes a transmission which is drivingly connected to the drive shaft 14 via sprockets [7, 17a], and the sprocket 18 of the output shaft is drivingly connected to the drive sprocket 19 and gear 19a of the drive belt 4.4a of the accumulation conveyor 3. has been done.
20は変速機16の他のスプロケット18aから分割用
コンベア5のスプロケット21及びギヤ21aへの駆動
伝達経路の途中に設けられたディファレンシャルギヤ2
0で、ブレーキ付のクラッチ22が切れた状態では分割
用コンベア5を累積コンベア3と同速度で運転させるべ
く設定され、又クラッチ22が接続した際には駆動軸1
4から別途変速機23を介して伝達される回転力が付与
されることにより分割用コンベア5が累積コンベア3よ
りも高速となる様に構成されたものである。20 is a differential gear 2 provided in the middle of the drive transmission path from the other sprocket 18a of the transmission 16 to the sprocket 21 and gear 21a of the dividing conveyor 5.
0, when the clutch 22 with brake is disengaged, the dividing conveyor 5 is set to operate at the same speed as the accumulating conveyor 3, and when the clutch 22 is connected, the drive shaft 1
The division conveyor 5 is configured to be faster than the accumulation conveyor 3 by applying a rotational force transmitted from the conveyor 4 via a transmission 23 separately.
24、25は分割用コンベア5の所定の位R(後述する
)に設けられたワーク検知用のセンサーで、一方のセン
サー24は分割用コンベア5にて移送されるワーク2の
先端位置を検知してその検知信号をクラッチ22の制御
回路26に送信するもので、他方のセンサー25は当該
センサー25の側方を通過する複数のワーク2・・・の
後端位置を検出してその信号を前記制御回路26に送信
するものである。24 and 25 are workpiece detection sensors provided at a predetermined position R (described later) of the dividing conveyor 5; one sensor 24 detects the tip position of the workpiece 2 transferred by the dividing conveyor 5; and sends the detection signal to the control circuit 26 of the clutch 22, and the other sensor 25 detects the rear end positions of the plurality of works 2 passing on the side of the sensor 25 and sends the signal to the control circuit 26 of the clutch 22. It is transmitted to the control circuit 26.
27、28は駆動軸12に装着されたカムとリミットス
イッチで、駆動軸12の一回転の所定の期間中リミット
スイッチ28が制御回路26にタイミング信号を送信し
、又そのタイミング信号の発信時期及び期間は任意に変
更自在となる様に設定されている。尚、前記制御回路2
6は、常時はクラッチブレーキ22を切った状態を維持
するが、リミットスイッチ28からのタイミング信号と
一方のセンサー24からの送4N信号の双方を受信した
時点から他方のセンサー25からの送F信号の受信を行
う迄の期間中はクラフチ22を接続させるものである。Reference numerals 27 and 28 indicate a cam and a limit switch mounted on the drive shaft 12. During a predetermined period of one rotation of the drive shaft 12, the limit switch 28 transmits a timing signal to the control circuit 26, and also controls the transmission timing and timing of the timing signal. The period is set so that it can be changed arbitrarily. Note that the control circuit 2
6 keeps the clutch brake 22 in a disengaged state at all times, but from the time it receives both the timing signal from the limit switch 28 and the sending 4N signal from one sensor 24, the sending F signal from the other sensor 25 is turned off. The Craft 22 is connected during the period until the reception of the data.
本実施例の装置構成は以上からなり、次に当該装置を使
用してワーク2を三個ずつ分割して供給する方法を説明
する。The apparatus configuration of this embodiment is as described above. Next, a method of dividing and supplying the workpiece 2 into three pieces using the apparatus will be explained.
先ず、第1図に於いて、移送コンベア1に多数のワーク
2・・・を投入して累積コンベア3側に移送させるが、
該累積コンベア3は移送コンベア1よりもその移送線速
度が遅いために、ワーク2・・・はその前後部が相互に
当接した押せ押せの状態となる。次に、該ワーク2・・
・を累積コンベア3と同一線速度に設定した分割用コン
ベア5側に受渡せば、これらワーク2の相互間に隙間を
生じさせることなくその前進移送が行える。First, in FIG. 1, a large number of works 2... are loaded onto the transfer conveyor 1 and transferred to the accumulation conveyor 3.
Since the accumulation conveyor 3 has a slower linear transfer speed than the transfer conveyor 1, the works 2 are in a pressed state with their front and rear abutting against each other. Next, the work 2...
If the workpieces 2 are delivered to the dividing conveyor 5 which is set at the same linear speed as the accumulation conveyor 3, these works 2 can be transferred forward without creating gaps between them.
その後先頭から例えば三番目のワーク2Cの先端部が分
割用コンベア5の駆動ベルト6.6aによって挟まれた
際に、これをセンサー24で検出させる。Thereafter, when the leading end of, for example, the third workpiece 2C from the front is pinched by the drive belt 6.6a of the dividing conveyor 5, this is detected by the sensor 24.
これは駆動ベルト6.6aの始端位置A−Aからセンサ
ー24迄の寸法りを二個のワーク2の合計寸法よりも僅
かに長い距離に予め設定しておけばよい。This can be done by setting the distance from the starting end position A-A of the drive belt 6.6a to the sensor 24 in advance to be slightly longer than the total dimension of the two workpieces 2.
又、カム27と接触するリミットスイッチ28は、分割
用コンベア5で移送するワーク2・・・がアタッチメン
ト11と接触しないタイミングで所定のタイミング信号
をクラッチ22の制御回路26に送信する樺に設定して
おく。このリミットスイッチ28とセンサー24からの
両信号の受信によりディファレンシャルギヤ20のクラ
ッチ22を接続させて分割用コンベア5の線速度Vを増
速させるのである。Further, the limit switch 28 that comes into contact with the cam 27 is set to transmit a predetermined timing signal to the control circuit 26 of the clutch 22 at a timing when the work 2 transferred by the dividing conveyor 5 does not come into contact with the attachment 11. I'll keep it. Upon reception of both the signals from the limit switch 28 and the sensor 24, the clutch 22 of the differential gear 20 is connected to increase the linear velocity V of the dividing conveyor 5.
而して、前記タイミングで駆動ベルト6.68が増速さ
れると、先頭の三個のワーク2a+ 2b+ 2cはそ
の後段側のワーク2d等よりも高速で移送されるために
、当該三個のワーク2a、2b、2Cとこれよりも後段
側のワーク2dとの間には第4図の如く隙間が発生して
分割されるのである。When the speed of the drive belt 6.68 is increased at the above-mentioned timing, the first three works 2a+ 2b+ 2c are transported at a higher speed than the subsequent works 2d, etc. As shown in FIG. 4, gaps are generated between the works 2a, 2b, 2C and the work 2d on the subsequent stage, and the workpieces are divided.
また、その後は次のワーク2dが駆動ベルト616aの
始端A−Aに挾まれないうちに前記三番目のワーク2C
の後端部を他のセンサー25で検出させて、ディファレ
ンシャルギヤ20側のクラッチ22を切ることにより分
割用コンベア5を累積コンベア3と同一速度に戻せばよ
い。これによって、ワーク2d以下は相互に分離するこ
となく押せ押せ状態を維持するのである。After that, before the next work 2d is caught by the starting end A-A of the drive belt 616a, the third work 2C is
The rear end portion may be detected by another sensor 25, and the dividing conveyor 5 may be returned to the same speed as the accumulating conveyor 3 by disengaging the clutch 22 on the differential gear 20 side. As a result, the workpieces 2d and below are maintained in a pressed state without being separated from each other.
上記工程を繰り返し行えば、累積コンベア3にて移送さ
れるワーク2・・・を順次分割用コンベア5によって三
個一組に分割できるのである。また、この分割されたワ
ーク2・・・の相互間に供給コンベア7のアタッチメン
ト11を進入させれば、これらワーク2・・・を三個一
組で包装機8のフォーマ9側に供給してその一体包装が
行える。ここに前記累積コンベア3や分割用コンベア5
は常時連続して運転されており、間歇運転等を行う必要
がないために、包装[8の連続運転が行え、その包装作
業が効率的に行えることとなる。By repeating the above steps, the works 2 transferred by the accumulation conveyor 3 can be sequentially divided into sets of three by the dividing conveyor 5. Moreover, if the attachment 11 of the supply conveyor 7 is inserted between the divided works 2..., these works 2... can be supplied to the former 9 side of the packaging machine 8 in sets of three. It can be packaged in one piece. Here, the accumulation conveyor 3 and the dividing conveyor 5
Since the machine is operated continuously at all times and there is no need for intermittent operation, the packaging [8] can be operated continuously and the packaging work can be carried out efficiently.
尚、上記実施例では、包装機へのワーク供給を一例とし
て説明したが、本発明は決してこれに限定されず、ワー
ク2の具体的な種類を問わないことは勿論のこと、様々
な装置へのワーク供給に適用できるものである。In the above embodiment, the workpiece supply to the packaging machine was explained as an example, but the present invention is by no means limited to this, and the present invention is of course not limited to the specific type of workpiece 2, and can be applied to various devices. This can be applied to the supply of workpieces.
また、上記実施例では、ワークを三個一組に分割させた
が、その具体的な個数は問うものではない。センサー2
4.25の位置変更を行えば、二個一組、四個一組等、
様々な形態でワークの分割供給が行えるのである。更に
、上記構成の装置に於いて、センサー24.25を作用
させずに、分割用コンベア5を常時累積コンベア3より
も高速に設定しておけば、ワークを一個ずつ分割できる
ものであり、必要に応じてこの樺な使用を行ってもよい
。Further, in the above embodiment, the workpiece is divided into a set of three pieces, but the specific number of pieces is not critical. sensor 2
4. If you change the position in 25, you will have one set of two pieces, one set of four pieces, etc.
Workpieces can be divided and supplied in various forms. Furthermore, in the apparatus configured as described above, if the dividing conveyor 5 is always set at a higher speed than the accumulating conveyor 3 without using the sensors 24 and 25, the workpieces can be divided one by one. This birch may be used depending on the situation.
更に、上記実施例では、分割用コンベア5の増減速開始
をセンサー24とリミットスイッチ28との双方の信号
を受信した際に行わせて、増速されるワーク2が供給コ
ンベア7のアタッチメント11に衝突することを適切に
回避し得る様にしたが、本発明はこの様なリミットスイ
ッチ28側からの信号は必須条件ではない。センサー2
4の検出信号単独で分割用コンベア5を加速させてもよ
い。Furthermore, in the above embodiment, the dividing conveyor 5 starts increasing or decelerating when signals from both the sensor 24 and the limit switch 28 are received, so that the work 2 to be accelerated is delivered to the attachment 11 of the supply conveyor 7. Although collisions can be appropriately avoided, the present invention does not require such a signal from the limit switch 28 side. sensor 2
The dividing conveyor 5 may be accelerated by the detection signal No. 4 alone.
但し、本発明は分割用コンベア5の加速及び減速を行う
タイミングを検出するための具体的な手段は決して上記
実施例の如きセンサーに限定されない。ワークとの接触
によりオンオフされる電気スイッチ等をそのタイミング
検出手段として用いても何ら構わない。又、減速開始を
タイマーによって行わせて、所定の期間だけ分割用コン
ベア5が累積コンベア3よりも高速となる樺に設定して
もよい。However, in the present invention, the specific means for detecting the timing of acceleration and deceleration of the dividing conveyor 5 is by no means limited to the sensor as in the above embodiment. An electric switch or the like that is turned on or off by contact with the workpiece may be used as the timing detection means. Alternatively, a timer may be used to start deceleration, and the dividing conveyor 5 may be set to be faster than the accumulating conveyor 3 for a predetermined period.
更に、本発明は分割用−コンベア5や累積コンベア3等
の具体的な構成も決して上記実施例の如く限定されない
。累積コンベア3は、要は複数のワーク2・・・の前後
部を相互に当接させて移送するコンベアであれば、あら
ゆる型式のコンベアが適用可能である。又、分割用コン
ベア5は累積コンベア3の後段側に配置されて、該累積
コンベア3から順次受け渡されるワーク2・・・を相互
に対向して設けられた駆動ベルト6.6aにより挾んで
移送可能な速度可変のコンベアとして構成されていれば
よい。分割用コンベア5の速度を加減変更するための具
体的な駆動機構は上記実施例以外に様々な手段が適用自
在である。例えば分割用コンベア5と累積コンベア3と
は二個のサーボモータで夫々独立して駆動させる樺にし
てもよい。Further, the present invention is not limited to the specific configurations of the dividing conveyor 5, accumulation conveyor 3, etc. as in the above embodiments. As the accumulation conveyor 3, any type of conveyor can be used as long as it is a conveyor that transports a plurality of works 2 with their front and rear parts in contact with each other. Further, the dividing conveyor 5 is disposed on the downstream side of the accumulation conveyor 3, and transfers the works 2 sequentially delivered from the accumulation conveyor 3 by sandwiching them by drive belts 6.6a provided facing each other. It is sufficient if the conveyor is configured as a variable speed conveyor. As a specific drive mechanism for changing the speed of the dividing conveyor 5, various means other than the above-mentioned embodiments can be applied. For example, the dividing conveyor 5 and the accumulation conveyor 3 may be driven independently by two servo motors.
その他、本発明に係る方法の各作業工程、及び装置の各
部の具体的な構成は、全て本発明の意図する範囲内で変
更又は設計変更自在である。In addition, each work step of the method according to the present invention and the specific configuration of each part of the apparatus can all be changed or designed within the intended scope of the present invention.
(発明の効果)
叙上の様に、本発明に係る方法では、累積コンベアによ
ってその前後が相互に当接した状態で移送される複数の
ワークをこれと同一速度で駆動した後段側の分割用コン
ベアに受け渡し移送させる際に、該分割用コンベアの駆
動ベルト間に挟まれたワークの個数が所望の個数になっ
た時点から次のワークが駆動ベルト間に挟まれる迄の期
間中だけ分割用コンベアを累積コンベアよりも高速とし
たために、その移送速度によって前記複数個のワークを
他の累積コンベア上のワーク群と分割させた状態で移送
できることとなった。(Effects of the Invention) As described above, in the method according to the present invention, a plurality of workpieces transported by an accumulation conveyor with their front and back abutting each other are driven at the same speed as the latter part for dividing. When the workpieces are delivered to and transferred to the conveyor, the dividing conveyor is used only during the period from when the number of workpieces sandwiched between the drive belts of the dividing conveyor reaches the desired number until the next workpiece is sandwiched between the drive belts. Since the speed of the conveyor is higher than that of the accumulating conveyor, the plurality of works can be transferred while being separated from the group of works on other accumulating conveyors.
その結果、本発明では、従来の如く分割用コンベア側に
アタッチメントを備えたコンベアを必ずしも別途設ける
必要はなくなり、簡易な手段によって多数のワークを順
次連続して高速移送させながら所望の個数ずつに分割供
給できて、包装機やその他の装置類に極めて効率の良い
複数個一組のワーク供給が行え、各種作業に有意義な使
用が行える格別な効果を有するに至った。As a result, in the present invention, there is no need to separately provide a conveyor with an attachment on the dividing conveyor side as in the past, and it is possible to divide a large number of works into desired numbers while sequentially and continuously transferring them at high speed using simple means. It has become possible to supply a plurality of workpieces to packaging machines and other equipment in an extremely efficient manner, and has achieved a special effect in that it can be used meaningfully in various operations.
また、本発明に係る装置によれば、累積コンベアの後段
側に設けた可変速度の分割用コンベアを、増速信号発信
手段及び減速信号発信手段から発信されるタイミング信
号を利用して所定の時期に増減速させることにより、上
記本発明に係るワーク分割供給方法が適切に実施でき、
その実用的価値は多大である。Further, according to the device according to the present invention, the variable speed dividing conveyor provided on the downstream side of the accumulation conveyor is controlled at a predetermined time using timing signals transmitted from the speed increase signal transmitting means and the deceleration signal transmitting means. By increasing and decelerating the workpiece supply method according to the present invention, the workpiece division supply method according to the present invention can be appropriately implemented.
Its practical value is enormous.
第1図は本発明に係る分割供給装置の一実施例を示す側
面図。
第2図はその駆動機構を示す概略平面図。
第3図及び第4図はワークを分割供給させる状態の要部
側面図。
第5図、第6図(イ)、(ロ)、及び第7図は従来例を
示す要部側面図。FIG. 1 is a side view showing one embodiment of the division supply device according to the present invention. FIG. 2 is a schematic plan view showing the drive mechanism. FIG. 3 and FIG. 4 are side views of main parts in a state where a workpiece is dividedly supplied. FIG. 5, FIG. 6 (a), (b), and FIG. 7 are side views of main parts showing a conventional example.
Claims (1)
配列状態で移送される複数のワーク2・・・を、複数個
一組に分割して下流側に供給させる方法であって、前記
累積コンベア3から送出されるワーク2・・・を、該累
積コンベア3の後段側に配置された分割用コンベア5の
相互に対向して設けられた駆動ベルト6、6a間に受け
渡して前記累積コンベア3と同一速度でワーク2・・・
を下流側に移送せしめ、その後前記駆動ベルト6、6a
が所望の個数のワーク2・・・を挟んだ際に該駆動ベル
ト6、6aによるワーク2・・・の移送速度を累積コン
ベア3側よりも高速に加速し、次の先頭のワーク2dが
駆動ベルト6、6a間に挟まれる以前に該駆動ベルト6
、6aを元の運転速度に戻すことを特徴とするワークの
分割供給方法。 2 複数のワーク2・・・の前後部を相互に当接させて
移送する累積コンベア3と、該累積コンベア3の後段側
に配置されて該累積コンベア3から順次受け渡されるワ
ーク2・・・を相互に対向して設けられた駆動ベルト6
、6aにより挟んで移送可能な速度可変の分割用コンベ
ア5と、該分割用コンベア5の駆動ベルト6、6aに挟
まれたワーク2の個数が所望の個数に達した際にこれを
検知して前記分割用コンベア5の線速度を累積コンベア
3よりも高速に増速させるためのタイミング信号を発信
する増速信号発信手段24と、該増速信号発信手段24
からのタイミング信号の発信後において累積コンベア3
上を移送される次のワーク2dが分割用コンベア5の駆
動ベルト6、6a間に挟まれる以前に累積コンベア3よ
りも高速に増速された分割用コンベア5を累積コンベア
3と同一速度に減速させるためのタイミング信号を発信
する減速信号発信手段25とからなることを特徴とする
ワークの分割供給装置。 3 増速信号発信手段24が、分割用コンベア5の駆動
ベルト6、6a間に所望の個数のワーク2・・・が挟ま
れる際の先頭のワーク2dの先端部を検知して信号を発
信するセンサーである特許請求の範囲第2項記載のワー
クの分割供給装置。 4 減速信号発信手段25が、分割用コンベア5にて移
送されるワーク2・・・の後端部が所定の位置に到達し
た際にこれを検知して信号を発信するセンサーである特
許請求の範囲第2項又は第3項記載のワークの分割供給
装置。[Claims] 1. A method in which a plurality of works 2, which are transferred by an accumulation conveyor 3 in an array in which the front and back are in contact with each other, are divided into a plurality of sets and supplied to the downstream side. Then, the workpieces 2... sent out from the accumulation conveyor 3 are delivered between drive belts 6, 6a provided opposite to each other on the dividing conveyor 5 disposed on the downstream side of the accumulation conveyor 3. Work 2... at the same speed as the accumulation conveyor 3.
is transferred to the downstream side, and then the drive belts 6, 6a
When the desired number of workpieces 2... are sandwiched between them, the transfer speed of the workpieces 2... by the drive belts 6, 6a is accelerated to a higher speed than that on the accumulation conveyor 3 side, and the next leading workpiece 2d is driven. The drive belt 6 before being sandwiched between the belts 6 and 6a
, 6a is returned to its original operating speed. 2. An accumulation conveyor 3 that transports a plurality of works 2 with their front and rear parts in contact with each other, and works 2 that are arranged on the downstream side of the accumulation conveyor 3 and are sequentially delivered from the accumulation conveyor 3. drive belts 6 provided opposite to each other;
, 6a, and detects when the number of works 2 sandwiched between the variable speed dividing conveyor 5 and the drive belts 6, 6a of the dividing conveyor 5 reaches a desired number. a speed increase signal transmitting means 24 for transmitting a timing signal for increasing the linear velocity of the dividing conveyor 5 to a higher speed than that of the accumulation conveyor 3; and the speed increase signal transmitting means 24.
Accumulation conveyor 3 after sending the timing signal from
Before the next work 2d to be transferred above is sandwiched between the drive belts 6 and 6a of the dividing conveyor 5, the dividing conveyor 5, which has been accelerated to a higher speed than the accumulating conveyor 3, is decelerated to the same speed as the accumulating conveyor 3. 1. A workpiece dividing supply device comprising a deceleration signal transmitting means 25 for transmitting a timing signal to cause the workpiece to be divided and supplied. 3. The speed-up signal transmitting means 24 detects the tip of the leading workpiece 2d when a desired number of works2... are sandwiched between the drive belts 6, 6a of the dividing conveyor 5, and transmits a signal. The workpiece dividing supply device according to claim 2, which is a sensor. 4. The deceleration signal transmitting means 25 is a sensor that detects when the rear end of the work 2... transferred by the dividing conveyor 5 reaches a predetermined position and transmits a signal. A device for dividing and supplying a workpiece according to item 2 or 3 of the scope.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22714188A JPH06104490B2 (en) | 1988-09-09 | 1988-09-09 | Method and device for divided work supply |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP22714188A JPH06104490B2 (en) | 1988-09-09 | 1988-09-09 | Method and device for divided work supply |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH0275515A true JPH0275515A (en) | 1990-03-15 |
JPH06104490B2 JPH06104490B2 (en) | 1994-12-21 |
Family
ID=16856128
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP22714188A Expired - Lifetime JPH06104490B2 (en) | 1988-09-09 | 1988-09-09 | Method and device for divided work supply |
Country Status (1)
Country | Link |
---|---|
JP (1) | JPH06104490B2 (en) |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH05124721A (en) * | 1991-10-31 | 1993-05-21 | Rengo Co Ltd | Transport method with storage conveyor |
US5287954A (en) * | 1991-06-21 | 1994-02-22 | G.D Societa' Per Azioni | Device for equally-spaced in-line transportation of randomly arranged incoming products |
JPH06144636A (en) * | 1992-11-10 | 1994-05-24 | Futagami Tekkosho:Kk | Conveying delivery device |
JPH0958851A (en) * | 1995-08-25 | 1997-03-04 | Rozai Kogyo Kaisha Ltd | Overturned can eliminator in can washing process |
JP2003026261A (en) * | 2001-07-13 | 2003-01-29 | Daio Paper Corp | Tissue carton, apparatus and method for carrying the same |
JP2007212497A (en) * | 2006-02-07 | 2007-08-23 | Kamakura Koki Kk | Optical equipment with pupil distance adjustment function |
US7775958B2 (en) | 2001-02-20 | 2010-08-17 | Daio Paper Corporation | Sanitary tissue paper, method of producing the same, carton box for sanitary tissue paper, sanitary tissue paper package, interfolder, and apparatus and method of conveying sanitary tissue paper package |
JP2021155060A (en) * | 2020-03-26 | 2021-10-07 | 株式会社寺岡精工 | Packaging device |
JP2021165191A (en) * | 2020-04-07 | 2021-10-14 | 東罐興業株式会社 | Vessel accumulator |
CN114735284A (en) * | 2022-04-28 | 2022-07-12 | 深圳威尔智能系统有限公司 | Automatic label stacking and packaging method and device |
Families Citing this family (1)
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JP4685395B2 (en) * | 2004-09-17 | 2011-05-18 | 大森機械工業株式会社 | Bucket-type article separation and supply device |
-
1988
- 1988-09-09 JP JP22714188A patent/JPH06104490B2/en not_active Expired - Lifetime
Cited By (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5287954A (en) * | 1991-06-21 | 1994-02-22 | G.D Societa' Per Azioni | Device for equally-spaced in-line transportation of randomly arranged incoming products |
JPH05124721A (en) * | 1991-10-31 | 1993-05-21 | Rengo Co Ltd | Transport method with storage conveyor |
JPH06144636A (en) * | 1992-11-10 | 1994-05-24 | Futagami Tekkosho:Kk | Conveying delivery device |
JPH0958851A (en) * | 1995-08-25 | 1997-03-04 | Rozai Kogyo Kaisha Ltd | Overturned can eliminator in can washing process |
US7775958B2 (en) | 2001-02-20 | 2010-08-17 | Daio Paper Corporation | Sanitary tissue paper, method of producing the same, carton box for sanitary tissue paper, sanitary tissue paper package, interfolder, and apparatus and method of conveying sanitary tissue paper package |
JP2003026261A (en) * | 2001-07-13 | 2003-01-29 | Daio Paper Corp | Tissue carton, apparatus and method for carrying the same |
JP4533562B2 (en) * | 2001-07-13 | 2010-09-01 | 大王製紙株式会社 | Tissue carton conveying apparatus and method |
JP2007212497A (en) * | 2006-02-07 | 2007-08-23 | Kamakura Koki Kk | Optical equipment with pupil distance adjustment function |
JP2021155060A (en) * | 2020-03-26 | 2021-10-07 | 株式会社寺岡精工 | Packaging device |
JP2021165191A (en) * | 2020-04-07 | 2021-10-14 | 東罐興業株式会社 | Vessel accumulator |
CN114735284A (en) * | 2022-04-28 | 2022-07-12 | 深圳威尔智能系统有限公司 | Automatic label stacking and packaging method and device |
CN114735284B (en) * | 2022-04-28 | 2024-05-10 | 深圳威尔智能系统有限公司 | Automatic label stacking and packaging method and device |
Also Published As
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JPH06104490B2 (en) | 1994-12-21 |
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