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JP3934747B2 - Control method of sealing device - Google Patents

Control method of sealing device Download PDF

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Publication number
JP3934747B2
JP3934747B2 JP21446797A JP21446797A JP3934747B2 JP 3934747 B2 JP3934747 B2 JP 3934747B2 JP 21446797 A JP21446797 A JP 21446797A JP 21446797 A JP21446797 A JP 21446797A JP 3934747 B2 JP3934747 B2 JP 3934747B2
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JP
Japan
Prior art keywords
cylindrical body
mark
feed amount
seal member
film
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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.)
Expired - Fee Related
Application number
JP21446797A
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Japanese (ja)
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JPH1149106A (en
Inventor
雅弘 砂田
弘行 松井
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Fujimori Kogyo Co Ltd
Shibuya Packaging System Corp
Original Assignee
Fujimori Kogyo Co Ltd
Fabrica Toyama Corp
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Priority to JP21446797A priority Critical patent/JP3934747B2/en
Publication of JPH1149106A publication Critical patent/JPH1149106A/en
Application granted granted Critical
Publication of JP3934747B2 publication Critical patent/JP3934747B2/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/80General aspects of machine operations or constructions and parts thereof
    • B29C66/83General aspects of machine operations or constructions and parts thereof characterised by the movement of the joining or pressing tools
    • B29C66/834General aspects of machine operations or constructions and parts thereof characterised by the movement of the joining or pressing tools moving with the parts to be joined
    • B29C66/8351Jaws mounted on rollers, cylinders, drums, bands, belts or chains; Flying jaws
    • B29C66/83541Jaws mounted on rollers, cylinders, drums, bands, belts or chains; Flying jaws flying jaws, e.g. jaws mounted on crank mechanisms or following a hand over hand movement
    • B29C66/83543Jaws mounted on rollers, cylinders, drums, bands, belts or chains; Flying jaws flying jaws, e.g. jaws mounted on crank mechanisms or following a hand over hand movement cooperating flying jaws
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/02Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C65/00Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor
    • B29C65/02Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure
    • B29C65/08Joining or sealing of preformed parts, e.g. welding of plastics materials; Apparatus therefor by heating, with or without pressure using ultrasonic vibrations
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/03After-treatments in the joint area
    • B29C66/034Thermal after-treatments
    • B29C66/0342Cooling, e.g. transporting through welding and cooling zone
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/11Joint cross-sections comprising a single joint-segment, i.e. one of the parts to be joined comprising a single joint-segment in the joint cross-section
    • B29C66/112Single lapped joints
    • B29C66/1122Single lap to lap joints, i.e. overlap joints
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/05Particular design of joint configurations
    • B29C66/10Particular design of joint configurations particular design of the joint cross-sections
    • B29C66/13Single flanged joints; Fin-type joints; Single hem joints; Edge joints; Interpenetrating fingered joints; Other specific particular designs of joint cross-sections not provided for in groups B29C66/11 - B29C66/12
    • B29C66/133Fin-type joints, the parts to be joined being flexible
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/01General aspects dealing with the joint area or with the area to be joined
    • B29C66/345Progressively making the joint, e.g. starting from the middle
    • B29C66/3452Making complete joints by combining partial joints
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/41Joining substantially flat articles ; Making flat seams in tubular or hollow articles
    • B29C66/43Joining a relatively small portion of the surface of said articles
    • B29C66/431Joining the articles to themselves
    • B29C66/4312Joining the articles to themselves for making flat seams in tubular or hollow articles, e.g. transversal seams
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/40General aspects of joining substantially flat articles, e.g. plates, sheets or web-like materials; Making flat seams in tubular or hollow articles; Joining single elements to substantially flat surfaces
    • B29C66/41Joining substantially flat articles ; Making flat seams in tubular or hollow articles
    • B29C66/43Joining a relatively small portion of the surface of said articles
    • B29C66/432Joining a relatively small portion of the surface of said articles for making tubular articles or closed loops, e.g. by joining several sheets ; for making hollow articles or hollow preforms
    • B29C66/4322Joining a relatively small portion of the surface of said articles for making tubular articles or closed loops, e.g. by joining several sheets ; for making hollow articles or hollow preforms by joining a single sheet to itself
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/80General aspects of machine operations or constructions and parts thereof
    • B29C66/81General aspects of the pressing elements, i.e. the elements applying pressure on the parts to be joined in the area to be joined, e.g. the welding jaws or clamps
    • B29C66/814General aspects of the pressing elements, i.e. the elements applying pressure on the parts to be joined in the area to be joined, e.g. the welding jaws or clamps characterised by the design of the pressing elements, e.g. of the welding jaws or clamps
    • B29C66/8145General aspects of the pressing elements, i.e. the elements applying pressure on the parts to be joined in the area to be joined, e.g. the welding jaws or clamps characterised by the design of the pressing elements, e.g. of the welding jaws or clamps characterised by the constructional aspects of the pressing elements, e.g. of the welding jaws or clamps
    • B29C66/81463General aspects of the pressing elements, i.e. the elements applying pressure on the parts to be joined in the area to be joined, e.g. the welding jaws or clamps characterised by the design of the pressing elements, e.g. of the welding jaws or clamps characterised by the constructional aspects of the pressing elements, e.g. of the welding jaws or clamps comprising a plurality of single pressing elements, e.g. a plurality of sonotrodes, or comprising a plurality of single counter-pressing elements, e.g. a plurality of anvils, said plurality of said single elements being suitable for making a single joint
    • B29C66/81469General aspects of the pressing elements, i.e. the elements applying pressure on the parts to be joined in the area to be joined, e.g. the welding jaws or clamps characterised by the design of the pressing elements, e.g. of the welding jaws or clamps characterised by the constructional aspects of the pressing elements, e.g. of the welding jaws or clamps comprising a plurality of single pressing elements, e.g. a plurality of sonotrodes, or comprising a plurality of single counter-pressing elements, e.g. a plurality of anvils, said plurality of said single elements being suitable for making a single joint one placed next to the other in a single line transverse to the feed direction, e.g. shoulder to shoulder sonotrodes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/80General aspects of machine operations or constructions and parts thereof
    • B29C66/82Pressure application arrangements, e.g. transmission or actuating mechanisms for joining tools or clamps
    • B29C66/824Actuating mechanisms
    • B29C66/8242Pneumatic or hydraulic drives
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/80General aspects of machine operations or constructions and parts thereof
    • B29C66/84Specific machine types or machines suitable for specific applications
    • B29C66/843Machines for making separate joints at the same time in different planes; Machines for making separate joints at the same time mounted in parallel or in series
    • B29C66/8432Machines for making separate joints at the same time mounted in parallel or in series
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/80General aspects of machine operations or constructions and parts thereof
    • B29C66/84Specific machine types or machines suitable for specific applications
    • B29C66/849Packaging machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B29WORKING OF PLASTICS; WORKING OF SUBSTANCES IN A PLASTIC STATE IN GENERAL
    • B29CSHAPING OR JOINING OF PLASTICS; SHAPING OF MATERIAL IN A PLASTIC STATE, NOT OTHERWISE PROVIDED FOR; AFTER-TREATMENT OF THE SHAPED PRODUCTS, e.g. REPAIRING
    • B29C66/00General aspects of processes or apparatus for joining preformed parts
    • B29C66/70General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material
    • B29C66/72General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the structure of the material of the parts to be joined
    • B29C66/723General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the structure of the material of the parts to be joined being multi-layered
    • B29C66/7232General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the structure of the material of the parts to be joined being multi-layered comprising a non-plastics layer
    • B29C66/72321General aspects of processes or apparatus for joining preformed parts characterised by the composition, physical properties or the structure of the material of the parts to be joined; Joining with non-plastics material characterised by the structure of the material of the parts to be joined being multi-layered comprising a non-plastics layer consisting of metals or their alloys

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Physics & Mathematics (AREA)
  • Fluid Mechanics (AREA)
  • Thermal Sciences (AREA)
  • Containers And Plastic Fillers For Packaging (AREA)

Description

【0001】
【発明の属する技術分野】
本発明は、フィルムを筒状に成形し且つ内容物を充填して、所定のピッチで筒状体をシールして個々の袋体ごとに区分し、その後に個々の袋体ごとに分離するシール装置に係り、特に、筒状体を間隔を開けてシールする箇所を補正する制御方法に関する。
【0002】
【従来の技術】
図5(D)に示す袋体Wは、スティック形状であり、その内部には液体または粉体が封入されている。
この袋体Wは、内面に熱溶着可能な樹脂層を有するフィルム1の縁部が合掌状態に合わされ且つ熱溶着されて縦シール部2が形成されて筒状体1Aとされ、その後に上下端の偏平部が溶着されてシール部3aが形成され、且つ一方のシール部にノッチ(切欠き)4が形成される。
従来、この種の袋体Wでは、縦シール部2とシール部3aが共に熱溶着されている。しかし熱溶着のみでは溶着強度が不安定であり、例えばシール部3aの部分に液体や粉体などの内容物が挟まっていると、前記溶着強度が極端に低下することになる。
【0003】
そこで、筒状体を最初に熱溶着して熱シール部3aを形成し、その後に同じ部分を超音波で重ねて溶着してシール部3bを形成し、溶着強度を向上させることが考えられている。熱シール部3aに超音波振動を与えると、フィルムが内部振動エネルギーにより加熱され、内面の樹脂層の溶融が促進されるのみならず、熱シール部3aに前記内容物が挟まっていた場合でも超音波振動により内容物をシール部から除去でき、内容物が挟まることによる溶着強度の低下を防止できる。
【0004】
【発明が解決しようとする課題】
しかし、上記の袋体Wを製造する工程で、筒状体を溶着してシール部を形成する場合に以下に示す問題点が生じる。
(i)前記シール部3aを所定ピッチで形成するためには、フィルム1および筒状体1Aを間欠的に送り、その送り動作が停止したときに、熱シール部材で筒状体を挟んで熱溶着する。このとき間欠送り量を制御するために、一般的にはフィルム1に、シール部3aのピッチに一致する合いマークが付されている。従来の制御方法では、光学検知器やCCDなどの検知手段がフィルム1に付されたマークを検出したときに送りを停止し、前記シール部材で熱溶着を行なっている。しかし、フィルム1にマークを付す場合に、印刷精度やフィルム1の縮みなどによりマークのピッチが正規の位置から例えば±0.5mm程度ずれてしまう。この場合に、検知手段でマークを検知してフィルム1と筒状体1Aを停止させると、マークの位置とシール部3aとの位置にずれが生じ、マークの位置ずれによってはそのずれ量が累積的に大きくなってしまう。
【0005】
(ii)また、マークのずれに応じて、熱シール部材の位置を移動して、熱シール部3aをマークに合わせるようにすることも可能である。しかし、図5に示すように、熱シール3aが形成された後に、さらに間欠送りされる筒状体を超音波にて溶着してシール部3bを形成するものでは、前記熱シール部材の位置の補正を行うことにより、熱シール部3aと、超音波溶着を行う位置とが一致しなくなる。
【0006】
本発明は上記従来の課題を解決するものであり、フィルムに付されたマークを検知して筒状体の間欠送り量を制御する場合に、フィルムに付された合いマークとシール部との間のずれの補正を可能にしたシール装置の制御方法を提供することを目的としている。
【0007】
さらに本発明は、筒状体に2重のシールを行う場合に、マークと第1のシール部材とのずれを防止し、さらに第1のシール部材によるシールと第2のシール部材によるシールとで位置ずれが生じないようにしたシール装置の制御方法を提供することを目的としている。
【0008】
【課題を解決するための手段】
本発明のシール装置の制御方法は、フィルムで形成された筒状体に内容物を充填した後に、前記筒状体を所定のピッチでシールして筒状体を密閉し個々の袋体を形成するシール装置において、以下の手順を有することを特徴とするものである。
(1)筒状体を基準送り量L0にて間欠的に送り、その間欠送りの停止時に前記筒状体にシール部材を対向させ、その後にシール部材で筒状体を挟持してシールする、
(2)前記間欠送りの停止時に、シールピッチに対応してフィルムに付されたマークが正規の位置に停止したか否かを、検知手段によって検知する、
(3)前記マークの検知位置が正規の検知位置からずれたときに、筒状体の間欠送り量を前記基準送り量L0に対して増加させまたは減少させて、1回の間欠送りでまたは複数回の間欠送りで前記マークの検知位置が正規の検知位置に至る補正を行い、前記マークの検知位置が正規の検知位置に復帰したら、補正後の間欠送り量を前記基準送り量に戻す、
(4)戻された基準送り量により所定回数の間欠送りを行い、戻された基準送り量に対する補正を行なった時点で、補正のための間欠送り量、または補正による送り量の増減値から、前記マークのピッチの平均値、または前記マークの検知位置のずれ量の平均値を求める、
(5)求めた平均値により新たな基準送り量を求め、新たな基準送り量を前記基準送り量L0として更新し、マーク検知と筒状体の間欠送り動作を継続し、前記マークの検知位置ずれが生じたら、さらに新たな基準送り量を求め、前記基準送り量L0を再度更新していく
【0009】
上記発明は、従来のようにフィルムに付されたマークを検知した時点で、筒状体の送りを停止させるのではなく、前記マークのピッチの誤差を平均して平均値を求めこの平均値を基準送り量として筒状体を間欠送り動作させるものである。
【0010】
すなわち、前記平均値で基準送り量を決めて、この基準送り量で筒状体を間欠送りして、その停止時に熱シール部材などのシール部材を筒状体に対向させ、その後に筒状体を挟持する。所定位置に設置された検知手段によるマークの検知位置にずれが生じていないときには、前記基準送り量で筒状体の間欠送りを継続する。また、マークの検知位置がずれたときには、筒状体の間欠送り量を、前記基準送り量に対して所定寸法(例えば±0.1mmや±0.2mm程度)増加させたり減少させる。この増減を繰り返してマークが検知手段にて正規の位置に位置したことが検知されたら、基準送り量に戻す。
【0011】
前記マークを検知する検知手段としてCCDなどのように、マークの停止位置が正規の位置(基準送り量の位置)にあるか否かを検知できるとともに、その正規の位置からずれたときに、そのずれ量も検知できるものが好ましい。この場合に、マークが正規の停止位置からずれていた場合に、そのずれ量を1回でまたは数回に分けて段階的に補正できるように、筒状体の間欠送り量を増加しまたは減少させる。また前記ずれ量が所定量以上の場合には、不良品として、装置を停止させるなどの処理に移行させることができる。
【0012】
また、検知手段としてマークが正規の位置にあるか否かのみを検知し、そのずれ量を検知できないものである場合には、ずれが生じた場合に、例えば筒状体の送り量を0.1mm増加して、マークが正規の位置に検知されたか否か監視し、検知されないときはさらに0.1mm増加する。これによってもマークが正規の位置に検知できない場合には、間欠送り量を0.1mmずつ減少させていく。このような増減を予め決められた規則に従って繰り返し、またはランダムに繰り返すことにより、マークが正規の検知位置で検知されるように補正することができる。
【0013】
そして、筒状体の間欠送り量を増減させた補正量を制御部にて保持し且つ累積し、また計算して、所定回数(例えば30〜40回)の間欠送りの補正量から、間欠送り量の平均値(マークのピッチの平均値)を求め、この平均値を新たな基準送り量として処理動作を継続する。
【0014】
上記発明では、熱シールなどのシール部材またはこのシール部材と一緒に移動する挟圧部材で筒状部を挟持して、このシール部材の移動により筒状体を間欠的に移動させてもよいし、またはシール部材の位置を動かさず、ローラなどの送り手段で、筒状体の間欠送り量を増減してもよい。
【0015】
また上記発明は、図5に示すように、熱シールと超音波シールを重ねて行うシール装置に限られず、熱シールや超音波シールなどの単一のシールのみが行なわれるものであっても実施可能である。この発明では、フィルムに付されたマークを筒状体の間欠送りの基準として使用し、しかもマークの位置とシール部の位置とのずれを最小限に抑えることができる。特に、補正動作から送り量の平均値(マークピッチの平均値)を求め、この平均値を基準送り量として更新しているため、例えばフィルム原反の巻き始めから巻き終わりにかけて、マークのピッチが徐々に増大しまたは短縮されていったような場合でも、前記間欠送り量(基準送り量)をピッチの平均値の変化に合わせて修正できる。よって、マークのピッチとシール位置とのずれが累積的に大きくなるようなこともなく、また過大な補正量が発生するのを防止できる。
【0016】
また本発明は、筒状体に対して第1のシール(例えば熱シール)と第2のシール(例えば超音波シール)とが重ねて行なわれるものであってもよく、その場合には以下のようになる。
【0017】
また、本発明は、上流位置で筒状体を挟持してシールしながら筒状体の間欠移動に追従して下流側へ移動しさらに筒状体から離れて前記上流位置へ移動して筒状体を挟持する第1のシール部材と、前記第1のシール部材よりも下流側において筒状体の送り方向へ移動することなく設置されて前記第1のシール部材でシールした箇所を重ねてシールする第2のシール部材とを有し、以下のシール動作を行うものである。
(a)筒状体を前記基準送り量L0だけ間欠送りするとき、第2のシール部材よりも基準距離H0離れた位置へ第1のシール部材を移動させて筒状体を挟持する、
(b)前記(3)の補正動作で、筒状体の間欠送り量を基準送り量L0に対して増加させまたは減少させる補正を行うときに、第1のシール部材を前記基準距離H0よりも前記補正動作の補正量だけ増加させまたは減少させた距離Hxだけ移動させて筒状体を挟持し、第1のシール部材によるシール箇所と第2のシール部材によるシール箇所との間でのずれを防止する。
【0018】
さらに、第1のシール部材が筒状体を挟持する位置と、第2のシール部材により筒状体をシールする位置との間に、第1のシール部材によるシールが完了したN個の袋体(Nは整数)が存在しているときに、第1のシール部材の挟持箇所と第2のシール部材との距離Hxを、前記N個の袋体の個々の間欠送り量を累積した距離とし、第1のシール部材で筒状体を挟持した後の筒状体の間欠送り量Lxを、前記N個の袋体のうちの第2のシール部材に最も近いもののシール間隔に合わせるようにする。
【0019】
上記発明では、例えば熱シールと超音波シールとが筒状体の同じ箇所に重ねて行なわれるものにおいて、前記マークが基準位置からずれて、それに合わせて第1のシール部材が筒状体を挟持する位置を補正した場合に、その後の第2のシール部材によるシール位置と第1のシール部材のシール位置との間でずれが生じるのを防止できる。
【0020】
この場合に、第1のシール部材が筒状体を挟持して移動し、または筒状体を挟持して第1のシール部材と一緒に移動する挟圧部材の移動距離で、筒状体の間欠送り量Lxが決められるものとすることが可能である。すなわち第1のシール部材で筒状体を挟持して引っ張ってもよいし、または第1のシール部材と一緒に移動する挟圧部材または冷却部材で筒状体を挟持して引っ張り、これにより間欠送りしてもよい。
【0021】
また、フィルムで筒状体を形成する前に、前記マークが付されているフィルムの縁部を切り離して、この切り離された余剰フィルムを筒状体とは別の経路で送り、前記筒状体を第1のシール部材で挟持する位置に相当する箇所で前記余剰フィルムに付されたマークを検知することが好ましい。
【0022】
このように構成すると、第1のシール部材による挟持位置と、検知手段で検知するマークの位置とが、互いに分離されたフィルムの長さ方向の同じ位置となり、マークの検知位置とシール部材による挟持位置とが1対1に対応し、マークの検知と、送り動作の補正との精度を向上できる。
【0023】
【発明の実施の形態】
図1は本発明のシール装置の制御方法を採用した製袋装置のほぼ全体の構造を示す斜視図、図2はシール動作の説明図、図3(A)(B)(C)および図4(A)(B)は、送り量の補正動作の説明図である。
図1に示す製袋装置により、内容物が充填された図5(D)に示すスティック状の袋体Wが間欠的に連続製造される。
【0024】
この製袋装置10に対しては、幅寸法の大きい帯状フィルムFが供給される。この帯状フィルムFは、樹脂フィルムとアルミニウムの箔などとが積層されたものであり、後に袋体Wに成形されるときに内面となる部分が熱溶着可能な樹脂層(シーラント層)となっている。この帯状フィルムFは、主に昇降部Kの上下動作により間欠送りされる。ただし、前記昇降部Kの上下動作と共にいずれかの位置に配置されたロールの間欠回転動作により帯状フィルムFに対し間欠的な送り力が作用するものであってもよい。
【0025】
帯状フィルムFは、最上部に設けられた溝付きロール11に入るが、この溝付きロール11には複数の溝11aが形成され、各溝11aにカッター12が圧接できるようになっている。このカッター12により帯状フィルムFが幅方向に区分されて切断され、複数条(図1では3条)のフィルム1に分離される。なお所定幅の複数条のフィルム1が切り出されることにより、帯状フィルムFの縁部に、余分な短幅の余剰フィルムFaが切り出されるが、この短幅の余剰フィルムFaは、余剰フィルム案内ロール15により案内され、前記フィルム1と同じ速度で間欠移動する。
【0026】
前記余剰フィルムFaには、製造する袋体のシール部3aおよび3bのピッチと同じピッチで合いマークmが付されている。また、マークmを検知する検知手段Pが設けられている。この検知手段PはCCDなどであり、フィルム1および筒状体の間欠送りが停止したときに、これと同時に停止する余剰フィルムFa上のマークmが正規の位置に停止したか否かを検知できるとともに、そのずれ量も検知できるようになっている。このずれ量の検知出力は後述する制御部50に与えられる。
【0027】
また、フィルム1が第1のシール部材である熱シール部材29により挟持される箇所と、余剰フィルムFaに検知手段Pが対向する箇所とは、フィルムFの送り方向での同じ長さの位置に設定されている。フィルムFの送り方向の同じ位置で、熱シール部材29により筒状体が挟持されるとともにその位置に検知手段Pが対向するため、検知手段Pによるマークmの検知位置と、熱シール部材29による挟持位置とがフィルム上で1対1に対応し、マークのずれを高精度に補正できる。
【0028】
一定の幅寸法に分離された各フィルム1は、案内ロール13およびピンチロール14とで挟持されて下方に向かって案内される。下方へ案内された各フィルム1は、成形板16に穿設された各成形穴16a内に供給され、この成形穴16aにより筒状に成形される。成形板16には、各成形穴16aに対向して案内爪17が設けられており、各フィルム1の幅方向の両縁部1a,1aは前記案内爪17により合掌状態に合わせられる。図5(A)は、前記成形穴16aによりフィルム1が筒状に成形され且つ縁部1a,1aが合掌状態に合わせられた状態を拡大して示している。前記熱溶着が可能な樹脂層(シーラント)は合掌状態の合わせ面に向けられる。
【0029】
図1に示すように、前記成形板16の後段(下方)には、縦シール部S1が設けられ、この縦シール部S1には、複数組の縦シール部材18が各フィルム1ごとに設けられている。各縦シール部材18は、フィルム1の合掌合わせされた縁部1aどうしを熱シールするものであり、この縦シール部材18は、間欠送りされるフィルムの前記縁部1aに対し間欠的に圧接と離反動作を繰り返す。縦シール部材18の圧接動作により縁部1aどうしが熱シールされるが、図5(B)は、この熱溶着動作により縦シール部2が形成されて筒状体1Aとなった状態を示し、且つ縦シール部2をハッチングで示している。
【0030】
図1に示すように、前記成形板16の上方から、成形板16の各成形穴16a内に充填ノズル19が挿入されており、縦シール部2が形成された筒状体1A内に液体または粉体の内容物が流量を制御されながら充填される。
縦シール部材18の下方位置には、前記昇降部Kが位置している。この昇降部Kの昇降ベース20は、装置全体の架台に設けられた図示しないガイドレールにより図示上下方向へ往復移動自在に支持されている。昇降ベース20にはスクリュー軸21が固定されている。装置全体の架台には前記スクリュー軸21に螺合する雌ねじ駆動部材22が回転自在に設けられている。この雌ねじ駆動部材22がサーボモータMにより回転駆動されることにより、昇降部Kは昇降駆動される。ただし、前記サーボモータMの回転数を制御することにより、昇降部Kの上昇位置と下降距離とを可変させることができる。
【0031】
上記昇降部Kには、その上段に横シールを行なう熱シール部S2が設けられ、下段に挟圧冷却部Cが設けられている。この熱シール部S2と挟圧冷却部Cは、前記昇降ベース20に搭載され、熱シール部S2と挟圧冷却部Cの上下方向での間隔が一定のまま昇降ベース20と共に昇降移動する。
【0032】
熱シール部S2では、昇降ベース20に固定された駆動シリンダー23が設けられ、この駆動シリンダー23のプランジャによりくの字形状に連結された駆動リンク24が伸縮駆動される。駆動シリンダー23のプランジャは、駆動リンク24の中点の連結支点24aに連結されている。また駆動リンク24の一端は駆動板25に他端は駆動板26にそれぞれ連結されている。図1では駆動リンク24がくの字形状であるが、この状態から駆動シリンダー23のプランジャが引かれると、駆動リンク24が直線状に伸び、駆動板25がX2方向へ、駆動板26がX1方向へ対称的に移動する。一方の駆動板25には一対のロッド27が固定され、このロッド27は駆動板26に対して摺動自在に挿入され、さらにロッド27の先部には受け板28が固定されている。前記駆動シリンダー23により駆動板25がX2方向へ駆動されるときに、ロッド27にて連結されている受け板28が一緒にX2方向へ移動する。
【0033】
前記駆動板26には、3本の筒状のフィルムのそれぞれに対向する第1のシール部材となる熱シール部材(熱溶着板)29が固定して設けられ、筒状のフィルムを挟んで前記熱シール部材29には対向板31が対向している。この対向板31は、前記受け板28に対しショックアブソーバ32を介して支持されている。
【0034】
熱シール部S2では、駆動シリンダー23のプランジャが引かれ、駆動リンク24が直線状に伸びると、駆動板26がX1方向へ駆動され、駆動板25とロッド27と受け板28とが一緒にX2方向へ駆動されて、駆動板26に設けられた熱シール部材29と対向板31とで、筒状のフィルムが押しつぶされ、且つ熱シール部材29からフィルムに与えられる熱によりフィルムが熱溶着される。図5(C)の上部には、筒状のフィルムが押しつぶされ熱溶着された状態を示しており、熱シール部を符号3aで示している。
【0035】
挟圧冷却部Cの駆動機構は前記熱シール部S2と実質的に同じである。すなわち、昇降ベース20に駆動シリンダー35が固定されており、この駆動シリンダー35のプランジャで駆動されるくの字状の駆動リンク(符号24で示すのと同じもの)の一端が駆動板36に他端が挟圧部材37にそれぞれ連結されている。また駆動板36に固定された一対のロッド38が挟圧部材37に摺動自在に挿通されており、このロッド38の先端に受け板39が固定されている。受け板39にはショックアブソーバ(図示省略)を介して対向板41が支持されている。前記挟圧部材37と対向板41とが、間欠送りのための駆動部材および冷却部材として機能するものとなっている。
【0036】
挟圧冷却部Cでは、駆動シリンダー35のプランジャが吸引され、くの字状の駆動リンクが直線状に伸びると、挟圧部材37がX1方向へ駆動され、駆動板36とこの駆動板36に固定されたロッド38とロッド38に固定された受け板39とが一緒になってX2方向へ駆動される。その結果、図5(C)に示すように、筒状体1Aが挟圧部材37と対向板41とで挟圧され、熱シール部3aが冷却される。また前記挟圧部材37と対向板41とで熱シール部3aが挟圧されながら、昇降部K全体が下降方向へ移動することにより、各フィルム1および筒状体1Aに対し図示下方への間欠送り力が与えられる。すなわち筒状体1Aの間欠送り力は、挟圧部材37と対向板41の移動力により発揮される。ただし、熱シール部材29と対向板31とで筒状体1Aを挟持して下降する力で筒状体1Aを間欠送りしてもよい。
【0037】
挟圧冷却部Cでは、前記受け板39にカッターホルダ42が設けられ、それぞれのカッターホルダ42に、カッター(ノッチ形成部材)43が支持されている。前記挟圧部材37と対向板41とで、熱シール部3aが挟圧されるとき、前記カッター43が熱シール部3aに切込みを入れ、この切込みが図5(C)(D)に示すノッチ4となる。このノッチ4は、完成した袋体Wを開封するときのきっかけとなる部分である。
【0038】
図1に示すように、昇降部Kの下方には、超音波シール部S3が設けられている。超音波シール部S3では、装置全体の架台にホルダー45が筒状体1Aの送り方向へ移動することなく固定されており、このホルダー45内に、各フィルム1を挟んで対向するホーン46とアンビル47すなわち第2のシール部材となる超音波シール部材が設けられている。またホーン46とアンビル47を互いに圧接させる駆動手段が設けられている。前記熱シール部S2で溶着された熱シール部3aがこの超音波シール部S3でさらに超音波溶着され、図5(C)の下部に示すシール部3bが完成する。
【0039】
さらに、超音波シール部S3の下方位置には切断機構が設けられ、この切断機構により、前記シール部3bが図5(C)に示す切断線L−Lにより切断され、図5(D)に示す個々の袋体Wに分離される。
図1では、装置全体の動作を司る制御部50が示されており、この制御部50により、昇降部Kを昇降駆動するサーボモータMの駆動部51、各駆動シリンダー23,35および超音波シール部S3が制御される。
【0040】
次に、上記製袋装置の動作について説明する。
図1に示すように帯状フィルムFは、カッター12で切断され複数条の一定幅のフィルム1に分離される。各フィルム1は成形板16の成形穴16aにより筒状に成形されると共に、フィルム1の縁部1aどうしが案内爪17により合掌状態となるように案内される(図5(A)参照)。
【0041】
前記昇降部Kでは、サーボモータMの動力により雌ねじ駆動部材22が回転駆動され、スクリュー軸21に昇降力が与えられて、昇降部Kは昇降動作を繰返す。この間、挟圧冷却部Cでは、駆動シリンダー35により駆動板36と挟圧部材37が駆動され、挟圧部材37および対向板41が圧接離反動作を繰返す。図2の図示左右両側に示すように、前記挟圧部材37と対向板41は、下降位置▲1▼から互いに離れて離反位置▲2▼に移動し、さらに前記送り量分だけ上昇して上昇位置▲3▼に至り、さらに互いに圧接して挟持位置▲4▼に至る。また下降位置▲1▼から▲2▼と▲3▼を経て挟持位置▲4▼に至る間、各フィルム1は停止している。
【0042】
上記のボックス動作により、各フィルム1が所定送り量だけ下方へ間欠送りされるが、この間欠送り動作でのフィルム1の停止期間内(昇降部Kが上昇しているとき)に、縦シール部S1では、各組の縦シール部材18が、フィルム1の合掌合わせされた縁部1aどうしを挟み、且つ縦シール部材18から熱が与えられて、縁部1aどうしが合掌合わせにて熱シールされ、縦シール部2が形成される(図5(B)参照)。
また縦シール部2が形成された筒状体1A内に、充填ノズル19から、液体または粉体などの内容物が充填される。
【0043】
また、熱シール部材29と対向板31も同じボックス動作となり、上昇位置▲3▼で筒状体1Aの溶着すべき箇所に対向し、その後に挟持位置▲4▼に至って、筒状体1Aを挟持し、さらに下降位置▲1▼へ下降し、離反して離反位置▲2▼へ至る。そして、熱シール部材29が挟持位置▲4▼から下降位置▲1▼へ至る間の所定の時間内に、熱シール部材29でフィルムが加熱され、熱シール部3aが形成される。
【0044】
前記熱溶着が完了した直後に、熱シール部材29と対向板31とが離れ、間欠送り量に相当するだけ上昇し、一緒に、挟圧冷却部Cの挟圧部材37と対向板41が上昇し、さらに上昇位置▲3▼から挟持位置▲4▼に移動し、挟圧部材37と対向板41により、熱シール部3aが挟圧される。そして下降位置▲1▼まで下降する。この間、挟圧部材37と対向板41により前記熱シール部3aが冷却されるとともに、カッター(ノッチ形成部材)43によりノッチ4が形成される。
【0045】
また、フィルム1の間欠送り動作の停止期間中(昇降部Kが上昇しているとき)に、超音波シール部S3では、第2のシール部材となるホーン46とアンビル47が各熱シール部3aを挟持し、ホーン46に超音波振動が与えられて、前記熱シール部3aがさらに超音波溶着され、図5(C)の下部に示すシール部3bが形成される。さらに、超音波シール部S3の下方位置で、前記シール部3bの中間部分が切断線L−Lにて切断され、個々の袋体Wに分離される。
【0046】
次に、フィルム1および筒状体1Aの間欠送りの補正動作すなわち本発明のシール装置の制御方法について説明する。
図1に示すように帯状のフィルムFから切断されて分離された余剰フィルムFaは、分離された各フィルム1と同じ周期で間欠送りされる。余剰フィルムFaにはマークmが付されているが、筒状体1Aが挟持位置▲4▼に至った熱シール部材29と対向板31とで挟持されるときに、フィルム1上の挟持箇所に対応するマークmが前記検知手段Pの上に移動する。
【0047】
ここで、熱シール部材29と対向板31とで筒状体1Aが挟持された後に昇降部Kが下降する間欠送り量は、マークmが形成されるピッチの平均値を基準送り量L0として決められる。ある時点で求められた平均値が基準送り量L0となると、昇降部Kの下降距離が前記基準送り量L0に設定され、挟圧部材37と対向板41とで挟持された筒状体1Aが前記基準送り量L0だけ下降させられる。筒状体1Aが停止し、これと一緒に余剰フィルムFaが停止するときに、この余剰フィルムFaに付されたマークmが正規の位置に停止したか否か検知手段Pで計測される。マークmが正規の位置に停止し続けている間は、昇降部Kの下降距離は前記基準送り量L0で継続される。
【0048】
次に、前記基準送り量L0で筒状体1Aを間欠送りし、フィルム1および筒状体1Aが停止したときに、検知手段P上にてマークmが正規の位置(例えば検知手段Pの検知範囲の中心)に停止せず、位置ずれが生じた場合、補正動作を行う。この補正動作では、昇降部Kが上昇位置▲3▼までの上昇高さを変え、且つ下降位置▲1▼までの下降距離を変える。これにより、フィルム1および筒状体1Aの間欠送り量を変化させ、マークmが検知手段Pの検知範囲の中央値などに至るように補正する。このときの補正は、マークmの正規の検知位置からのずれ量を数回にかけて修正するように間欠送り量を増減してもよいし、または前記ずれ量を1回の送り量の増減で修正してもよい。
【0049】
そして、補正の結果、マークmが正規の検知位置に復帰したら、その後は筒状体1Aの間欠送り量を基準送り量L0に戻す。マークmが検知手段Pにより正規の検知位置に至るようになると、フィルム1上でのこのマークmと同じ位置となる部分が挟持位置▲4▼に至って、熱シール部材29と対向板31とで挟持される。
【0050】
また、前記間欠送りを所定回数(例えば30〜40回程度、またはそれ以上)繰り返して、前記基準送り量L0に対する補正を行なった時点で、補正のための間欠送り量、または補正による送り量の増減値から、フィルム1に付されたマークmのピッチの平均値、またはマークmのずれ量の平均値を求め、これにより新たな基準送り量L0を求める。その後は、この基準送り量L0で昇降部Kを昇降させ前記L0でフィルム1および筒状体1Aを間欠送りする。
そして、新たな基準送り量L0でフィルム1および筒状体1Aを間欠送りを繰り返し、その結果、マークmの位置ずれが生じたらさらに前記補正動作を行う。そして基準送り量L0を再度更新していく。
【0051】
このように、本発明では、筒状体1Aの間欠送り量に基準送り量L0を設定し、この基準送り量L0で間欠送りしているときにマークの検知位置にずれが生じたら、間欠送り量を増減して補正するが、さらにこの補正値を加味して、基準送り量L0そのものを更新できるようにしている。
したがって、例えばフィルム1の原反の巻き始めから巻き終わりにかけて、マークmのピッチの平均値が徐々に変化し、またはランダムに変化し、あるいは規則的に変化しているような場合に、その平均値の変動に追従できるようになる。例えば、原反の巻き始めから巻き終わりにかけてマークmのピッチの平均値が徐々に大きくなりまたは減少していくような場合、基準送り量L0を固定していると、フィルム1を順次送っていくにしたがってフィルム1の間欠送り量の補正値が大きくなり、補正動作が追従できなくなる場合がある。これに対し、本発明では、基準送り量L0自体を変動させていくことにより、前記のように補正量が過大になるのを防止できる。
【0052】
このように、マークmの検知位置のずれを補正するために、昇降部Kの昇降距離を変えて、フィルム1および筒状体1Aの間欠送り量を補正している。ただし、第2のシール部材を有する超音波シール部S3は、筒状体1Aの送り方向へ移動しないため、昇降部Kの昇降距離を補正すると、熱シール部S2で形成された熱シール部3aと、超音波シール部S3による超音波シール位置との間にずれが生じることがあり得る。
そこで、このようなずれが生じないようにするために、昇降部Kの上昇位置と下降距離(間欠送り量)を以下のよう制御している。
【0053】
例えば、始動時の筒状体1Aの間欠送りの基準送り量L0を130mmとする。この場合に、昇降部Kにおいて、第1のシール部材である熱シール部材29および対向板31と、挟圧部材37および対向板41との間隔は130mmに固定されている。また、熱シール部材29と対向板31とで筒状体1Aを挟持する位置と、第2のシール部材であるホーン46とアンビル47とで挟持する位置との間で、熱シール部3aが3箇所存在し、シール部材間の袋体WがN=4個存在するものとする。
【0054】
図3(A)に示すように、検知手段Pでのマークmの検知位置がずれていない場合には、基準送り量L0=130mmで筒状体1Aが間欠送りされるが、上昇位置▲3▼および挟持位置▲4▼に至った熱シール部材29および対向板31と、ホーン46およびアンビル47との距離が、基準距離H0=520mmとなるように、昇降部Kの上昇位置が制御される。
この基準送り量L0で間欠送りしているうちに、マークmの検知位置にずれが生じ、このずれを補正するために、筒状体1Aの間欠送り量を基準送り量L0よりも0.1mm短くして間欠送り量Lx=129.9mmとし、これを数回繰り返して、マークmの検知位置を正規の位置に戻す補正を行なっている状態が図3(B)である。
【0055】
この場合、昇降部Kの上昇量として、上昇位置(3)に至ったときの熱シール部材29と対向板31と、ホーン46およびアンビル47との距離を、基準距離H0よりも0.4mm短い519.6mmとする。この位置で前記熱シール部材29と対向板31および、挟圧部材37と対向板41とで筒状体1Aを挟持して昇降部Kを下降位置(1)まで下降させるときの距離Lxを129.9mmとする。その結果、筒状体1Aの間欠送り量Lxを、基準送り量L0よりも短くでき、しかも、熱シール部材29による熱シール位置と、ホーン46およびアンビル47とで、超音波シールを行う位置とを一致させることができる。
【0056】
図3(C)は、マークmの検知位置のずれを補正するために、筒状体1Aの間欠送り量Lxを130.1mmに増加させ、これを数回繰り返す補正を行なった場合を示している。この場合、昇降部Kを上昇させたときの、熱シール部材29および対向板31と、ホーン46およびアンビル47との距離Hxは、基準距離H0よりも0.4mm長い、Hx=520.4mmである。また、この高さ位置で、熱シール部材29と対向板31とで筒状体1Aを挟持した後に、昇降部Kが下降位置(1)に至る送り量Lxを130.1mmとする。このように昇降部Kの上昇位置と送り量を設定することにより、熱シール部材29により形成される熱シール部3aを、超音波シール位置に一致させることができる。
【0057】
図4(A)(B)は、補正のための間欠送り量がランダムに変化している場合を示している。
図4(A)では、マークmのずれを補正するために、間欠送り量Lxが、129.9mm、130mm、130.1mm、130.2mmと変化していった場合を示している。このとき、上昇位置▲3▼に至った熱シール部材29および対向板31と、ホーン46およびアンビル47との距離Hxは520.2mmであり、その後に熱シール部材29と対向板31とで筒状体1Aを挟持した後の昇降部Kの下降距離は、N個の包装体の最も下(超音波シール部S3の真上)に位置する袋体(イ)の長さ129.9mmに一致させる。
【0058】
同様に、図4(B)では、上昇位置▲3▼に至った熱シール部材29および対向板31と、ホーン46およびアンビル47との距離がHx=520.6mmであり、熱シール部材29と対向板31とで筒状体1Aを挟持した後の昇降部Kの下降距離(間欠送り量)は、ホーン46とアンビル47の真上に位置する袋体(イ)の熱シール部3aの間隔に合わせて130mmとする。これにより熱シール部3aを超音波シール部に一致させることができる。
【0059】
このように、第1のシール部材である熱シール部材29の上昇時の位置と、第2のシール部材であるホーン46およびアンビル47との距離は、その間にN個の袋体が存在しているときに、N個の個々の袋体の間欠送り量の累積値に一致させ、さらにその後に熱シール部材29と対向板31で筒状体1Aを挟持した後の間欠送り量を、最も下の袋体(イ)の熱シール部3a間の寸法に一致させることにより、熱シール箇所と超音波シール箇所とのずれの発生を防止できる。
【0060】
このように、マークmの検知位置にずれが生じたときには、筒状体1Aが停止したときの熱シール部材29による挟持位置を変え、且つ間欠送り量を変えて、そのずれを補正しているが、このときに熱シール部材29と超音波シール部との距離Hxを図3および図4のように設定し、且つその後の間欠送り量Lxを最下部の袋体の長さに合わせることにより、補正動作を行なった結果、2箇所のシール位置にずれが生じるのを防止できる。
なお、本発明では、第1のシール部材が熱シール部材で、第2のシール部が超音波シール部材であるが、第1のシール部材と第2のシール部材との組合せは他のものであってもよい。
【0061】
【発明の効果】
以上のように、本発明では、フィルムに付されたマークのピッチを基準としてフィルムおよび筒状体を間欠送りして、一定の間隔でシールする場合に、マークの位置ずれを効果的に補正できる。
【0062】
また、筒状体の同じ箇所にシールを行う場合に、前記補正動作によるシール箇所の相対的なずれの発生を防止できる。
【図面の簡単な説明】
【図1】本発明のシール装置の制御方法を使用した製袋装置の全体の構造を示す斜視図、
【図2】袋体の溶着および冷却過程および挟圧部材などの動作を示す側面図、
【図3】(A)ないし(C)はシール動作の補正方法を示す説明図、
【図4】(A)および(B)はシール動作の補正方法を示す説明図、
【図5】(A)ないし(D)は袋体の製造過程を示す斜視図、
【符号の説明】
F 帯状フィルム
K 昇降部
S1 縦シール部
S2 熱シール部
S3 超音波シール部
C 挟圧冷却部
1 フィルム
3a 熱シール部
3b 超音波溶着後のシール部
4 ノッチ
12 カッター
16 成形板
18 縦シール部材
19 充填ノズル
20 昇降ベース
29 熱シール部材(第1のシール部材)
31 対向板
37 挟圧部材
41 対向板
43 カッター
46 ホーン(第2のシール部材)
47 アンビル(第2のシール部材)
[0001]
BACKGROUND OF THE INVENTION
The present invention forms a film into a cylindrical shape, fills the contents, seals the cylindrical body at a predetermined pitch, divides it into individual bag bodies, and then separates the individual bag bodies. The present invention relates to an apparatus, and more particularly, to a control method for correcting a portion where a cylindrical body is sealed with a gap.
[0002]
[Prior art]
A bag body W shown in FIG. 5D has a stick shape, and a liquid or powder is sealed inside.
This bag body W is formed into a cylindrical body 1A in which the edge portion of the film 1 having a resin layer that can be thermally welded on the inner surface is fitted into a palm state and is thermally welded to form a vertical seal portion 2, and then the upper and lower ends are formed. The flat portion is welded to form a seal portion 3a, and a notch (notch) 4 is formed in one seal portion.
Conventionally, in this type of bag body W, the vertical seal portion 2 and the seal portion 3a are both thermally welded. However, the welding strength is unstable only by thermal welding. For example, when a content such as liquid or powder is sandwiched between the seal portions 3a, the welding strength is extremely lowered.
[0003]
Therefore, it is considered that the cylindrical body is first heat-welded to form the heat-sealed portion 3a, and then the same portion is superposed and welded to form the seal portion 3b to improve the welding strength. Yes. When ultrasonic vibration is applied to the heat seal portion 3a, the film is heated by internal vibration energy and not only the melting of the resin layer on the inner surface is promoted, but also when the contents are sandwiched between the heat seal portions 3a. The contents can be removed from the seal portion by sonic vibration, and a decrease in welding strength due to the contents being sandwiched can be prevented.
[0004]
[Problems to be solved by the invention]
However, in the process of manufacturing the bag body W, the following problems arise when the cylindrical body is welded to form the seal portion.
(I) In order to form the sealing portion 3a at a predetermined pitch, the film 1 and the cylindrical body 1A are intermittently fed, and when the feeding operation is stopped, the cylindrical body is sandwiched between the heat sealing members and heated. Weld. At this time, in order to control the intermittent feed amount, generally, an alignment mark corresponding to the pitch of the seal portion 3a is attached to the film 1. In the conventional control method, when the detection means such as an optical detector or CCD detects a mark attached to the film 1, the feeding is stopped and the sealing member performs heat welding. However, when a mark is attached to the film 1, the mark pitch deviates from the normal position by, for example, about ± 0.5 mm due to printing accuracy, shrinkage of the film 1, and the like. In this case, if the mark is detected by the detecting means and the film 1 and the cylindrical body 1A are stopped, a shift occurs between the mark position and the seal portion 3a, and the shift amount is accumulated depending on the mark position shift. Will become bigger.
[0005]
(Ii) It is also possible to move the position of the heat seal member in accordance with the displacement of the mark so that the heat seal portion 3a is aligned with the mark. However, as shown in FIG. 5, after the heat seal 3a is formed, the intermittently fed cylindrical body is welded with ultrasonic waves to form the seal portion 3b. By performing the correction, the heat seal portion 3a does not coincide with the position where ultrasonic welding is performed.
[0006]
The present invention solves the above-described conventional problems, and detects the mark attached to the film to control the intermittent feed amount of the cylindrical body, and between the alignment mark attached to the film and the seal portion. It is an object of the present invention to provide a control method of a sealing device that enables correction of deviation.
[0007]
Furthermore, the present invention prevents the mark and the first seal member from being displaced when performing a double seal on the cylindrical body, and further includes a seal by the first seal member and a seal by the second seal member. It is an object of the present invention to provide a control method of a sealing device that prevents positional displacement.
[0008]
[Means for Solving the Problems]
  According to the control method of the sealing device of the present invention, after a cylindrical body formed of a film is filled with contents, the cylindrical body is sealed at a predetermined pitch to seal the cylindrical body and form individual bags. In the sealing apparatus to perform, it has the following procedures.
(1) The cylindrical body is intermittently fed at a reference feed amount L0, the sealing member is opposed to the cylindrical body when the intermittent feeding is stopped, and then the cylindrical body is sandwiched and sealed by the sealing member.
(2)When stopping the intermittent feedCompatible with seal pitchAnd attached to the filmmarkBy means of detecting whether or notDetect
(3) The detection position of the mark isFrom the normal detection positionWhen shifted, the intermittent feed amount of the cylindrical body is increased or decreased with respect to the reference feed amount L0.The mark detection position reaches the normal detection position in one intermittent feed or multiple intermittent feeds.Perform correctionWhen the mark detection position returns to the normal detection position, the corrected intermittent feed amount is returned to the reference feed amount.
(4)Depending on the reference feed amount returnedPerform a certain number of intermittent feeds,When correction is made for the returned reference feed amount,Intermittent feed amount, Or the increase / decrease value of the feed amount by correction, the average value of the mark pitch, or the deviation amount of the mark detection positionFind the average value of
(5)SoughtAverage valueTo obtain a new reference feed amount and a new reference feed amountThe reference feed amountL0Updated, and continued mark detection and intermittent feeding of cylindrical bodyWhen the detection position deviation of the mark occurs, a new reference feed amount is obtained and the reference feed amount L0 is updated again..
[0009]
The above invention does not stop the feeding of the cylindrical body when a mark on the film is detected as in the prior art, but averages the mark pitch error to obtain an average value. The cylindrical body is intermittently fed as a reference feed amount.
[0010]
That is, the reference feed amount is determined by the average value, the cylindrical body is intermittently fed at the reference feed amount, and the sealing member such as a heat seal member is opposed to the cylindrical body at the time of stopping, and then the cylindrical body Pinch. When there is no deviation in the mark detection position by the detection means installed at a predetermined position, intermittent feed of the cylindrical body is continued with the reference feed amount. When the mark detection position is shifted, the intermittent feed amount of the cylindrical body is increased or decreased by a predetermined dimension (for example, about ± 0.1 mm or ± 0.2 mm) with respect to the reference feed amount. When this increase / decrease is repeated and it is detected by the detection means that the mark is located at the normal position, the reference feed amount is restored.
[0011]
As a detection means for detecting the mark, it is possible to detect whether or not the stop position of the mark is at a regular position (a position of the reference feed amount), such as a CCD, and when it deviates from the regular position, What can also detect the amount of deviation is preferred. In this case, when the mark deviates from the normal stop position, the intermittent feed amount of the cylindrical body is increased or decreased so that the deviation amount can be corrected step by step in one time or several times. Let When the deviation amount is equal to or larger than a predetermined amount, the apparatus can be shifted to a process such as stopping the apparatus as a defective product.
[0012]
Further, when the detection means detects only whether the mark is in a regular position and the deviation amount cannot be detected, when the deviation occurs, for example, the feed amount of the cylindrical body is set to 0. 0. The mark is increased by 1 mm, and it is monitored whether or not the mark is detected at the normal position. When the mark is not detected, the mark is further increased by 0.1 mm. If the mark cannot be detected at the regular position, the intermittent feed amount is decreased by 0.1 mm. By repeating such an increase / decrease according to a predetermined rule or randomly, it is possible to correct the mark so that it is detected at the normal detection position.
[0013]
And the correction amount which increased / decreased the intermittent feed amount of a cylindrical body is hold | maintained and accumulate | stored in a control part, is calculated, and intermittent feed is calculated from the correction amount of the intermittent feed of predetermined times (for example, 30-40 times). An average value (average mark pitch) is obtained, and the processing operation is continued with this average value as a new reference feed amount.
[0014]
In the above invention, the cylindrical portion may be sandwiched by the movement of the seal member by sandwiching the cylindrical portion with a sealing member such as a heat seal or a clamping member that moves together with the sealing member. Alternatively, the intermittent feed amount of the cylindrical body may be increased or decreased by a feed means such as a roller without moving the position of the seal member.
[0015]
Further, as shown in FIG. 5, the above invention is not limited to a sealing device that performs heat sealing and ultrasonic sealing in an overlapping manner, and even if only a single sealing such as heat sealing or ultrasonic sealing is performed. Is possible. In this invention, the mark attached to the film can be used as a reference for intermittent feeding of the cylindrical body, and the deviation between the mark position and the seal portion position can be minimized. In particular, the average value of the feed amount (the average value of the mark pitch) is obtained from the correction operation, and this average value is updated as the reference feed amount. For example, the mark pitch is changed from the beginning of the film to the end of winding. Even when it is gradually increased or shortened, the intermittent feed amount (reference feed amount) can be corrected in accordance with the change in the average value of the pitch. Therefore, the deviation between the mark pitch and the seal position does not increase cumulatively, and an excessive correction amount can be prevented from occurring.
[0016]
In the present invention, a first seal (for example, a heat seal) and a second seal (for example, an ultrasonic seal) may be overlapped on a cylindrical body. It becomes like this.
[0017]
  The present invention also provides:A first cylinder that holds and seals the tubular body at the upstream position, moves to the downstream side following the intermittent movement of the tubular body, and further moves away from the tubular body to the upstream position to sandwich the tubular body. And a second seal member that is installed on the downstream side of the first seal member without moving in the feeding direction of the cylindrical body and seals the portion sealed by the first seal member in an overlapping manner. And perform the following sealing operationIs Umono.
(A) When intermittently feeding the cylindrical body by the reference feed amount L0InThe first seal member is moved to a position away from the second seal member by the reference distance H0.,Sandwich the tubular body,
(B)In the correction operation (3),The intermittent feed amount of the cylindrical body,Correction to increase or decrease the reference feed amount L0sometimes,The first seal member,More than the reference distance H0Of corrective actionThe cylindrical body is clamped by moving the distance Hx increased or decreased by the correction amount, thereby preventing a shift between the seal location by the first seal member and the seal location by the second seal member.
[0018]
Further, N bag bodies in which sealing by the first sealing member is completed between a position where the first sealing member sandwiches the cylindrical body and a position where the cylindrical body is sealed by the second sealing member. When (N is an integer) is present, the distance Hx between the sandwiched portion of the first seal member and the second seal member is the distance obtained by accumulating the individual intermittent feed amounts of the N bags. The intermittent feed amount Lx of the cylindrical body after the cylindrical body is clamped by the first seal member is made to match the seal interval of the N bag bodies closest to the second seal member. .
[0019]
In the above invention, for example, when the heat seal and the ultrasonic seal are overlapped on the same part of the cylindrical body, the mark is displaced from the reference position, and the first seal member sandwiches the cylindrical body accordingly. When the position to be corrected is corrected, it is possible to prevent a deviation from occurring between the subsequent sealing position by the second sealing member and the sealing position of the first sealing member.
[0020]
In this case, the first sealing member moves while holding the cylindrical body, or the moving distance of the pressing member that moves together with the first sealing member while holding the cylindrical body moves the cylindrical body. The intermittent feed amount Lx can be determined. That is, the cylindrical body may be clamped and pulled by the first seal member, or the cylindrical body may be clamped and pulled by the clamping member or the cooling member that moves together with the first seal member, thereby intermittently. You may send it.
[0021]
Further, before forming the cylindrical body with the film, the edge of the film to which the mark is attached is cut off, and the cut excess film is sent through a path different from the cylindrical body, and the cylindrical body is It is preferable to detect a mark attached to the surplus film at a position corresponding to a position where the film is sandwiched between the first seal members.
[0022]
With this configuration, the holding position by the first seal member and the position of the mark detected by the detection means are the same position in the length direction of the separated films, and the mark detection position and the holding position by the seal member are the same. The positions correspond one-to-one, and the accuracy of mark detection and feed operation correction can be improved.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a perspective view showing an almost entire structure of a bag making apparatus adopting the method for controlling a sealing apparatus of the present invention, FIG. 2 is an explanatory view of a sealing operation, and FIGS. 3A, 3B, and 4C. (A) and (B) are explanatory drawings of the feed amount correcting operation.
The stick-shaped bag body W shown in FIG. 5 (D) filled with the contents is intermittently continuously manufactured by the bag making apparatus shown in FIG.
[0024]
A strip-shaped film F having a large width is supplied to the bag making apparatus 10. The belt-like film F is formed by laminating a resin film and an aluminum foil or the like, and when it is formed into a bag body W later, a portion serving as an inner surface becomes a heat-weldable resin layer (sealant layer). Yes. The belt-like film F is intermittently fed mainly by the vertical movement of the elevating part K. However, an intermittent feeding force may act on the belt-like film F by the intermittent rotation operation of the roll disposed at any position together with the vertical movement of the elevating unit K.
[0025]
The belt-like film F enters the grooved roll 11 provided at the uppermost portion, and the grooved roll 11 is formed with a plurality of grooves 11a, and the cutter 12 can be pressed into each groove 11a. The band-like film F is sectioned and cut in the width direction by the cutter 12 and separated into a plurality of films 1 (three in FIG. 1). It is to be noted that, by cutting out the plurality of films 1 having a predetermined width, an extra short-width surplus film Fa is cut out at the edge of the strip-like film F. The short-width surplus film Fa is formed by surplus film guide rolls 15. And intermittently moves at the same speed as the film 1.
[0026]
The surplus film Fa is provided with an alignment mark m at the same pitch as that of the seal portions 3a and 3b of the bag body to be manufactured. In addition, a detection means P for detecting the mark m is provided. The detecting means P is a CCD or the like, and can detect whether or not the mark m on the surplus film Fa that stops simultaneously with the intermittent feeding of the film 1 and the cylindrical body stops at the normal position. At the same time, the shift amount can be detected. This deviation amount detection output is given to the control unit 50 described later.
[0027]
Moreover, the location where the film 1 is sandwiched by the heat sealing member 29 which is the first sealing member and the location where the detection means P faces the surplus film Fa are at the same length in the feeding direction of the film F. Is set. At the same position in the feeding direction of the film F, the cylindrical body is sandwiched by the heat seal member 29 and the detection means P faces the position. Therefore, the detection position of the mark m by the detection means P and the heat seal member 29 The clamping position corresponds to the one-to-one correspondence on the film, and the mark deviation can be corrected with high accuracy.
[0028]
Each film 1 separated into a certain width is sandwiched between a guide roll 13 and a pinch roll 14 and guided downward. Each film 1 guided downward is supplied into each molding hole 16a formed in the molding plate 16, and is formed into a cylindrical shape by the molding hole 16a. The forming plate 16 is provided with guide claws 17 facing the respective forming holes 16 a, and both edge portions 1 a and 1 a in the width direction of the respective films 1 are adjusted to the palm state by the guide claws 17. FIG. 5A shows an enlarged view of a state in which the film 1 is formed into a cylindrical shape by the forming hole 16a and the edge portions 1a and 1a are adjusted to the palmar state. The heat-weldable resin layer (sealant) is directed to the mating surface of the jointed state.
[0029]
As shown in FIG. 1, a vertical seal portion S <b> 1 is provided at the rear stage (downward) of the forming plate 16, and a plurality of sets of vertical seal members 18 are provided for each film 1 in the vertical seal portion S <b> 1. ing. Each vertical seal member 18 heat seals the edge portions 1a of the film 1 which are joined together, and the vertical seal member 18 is intermittently pressed against the edge portion 1a of the film which is intermittently fed. Repeat the separation operation. The edges 1a are heat-sealed by the press-contact operation of the vertical seal member 18, but FIG. 5 (B) shows a state in which the vertical seal portion 2 is formed by this heat welding operation to become a cylindrical body 1A. The vertical seal portion 2 is indicated by hatching.
[0030]
As shown in FIG. 1, a filling nozzle 19 is inserted into each molding hole 16a of the molding plate 16 from above the molding plate 16, and a liquid or liquid is introduced into the cylindrical body 1A in which the vertical seal portion 2 is formed. The contents of the powder are filled while the flow rate is controlled.
The elevating part K is located below the vertical seal member 18. The elevating base 20 of the elevating part K is supported by a guide rail (not shown) provided on the gantry of the entire apparatus so as to be reciprocally movable in the up and down direction in the figure. A screw shaft 21 is fixed to the elevating base 20. A female screw driving member 22 that is screwed onto the screw shaft 21 is rotatably provided on the gantry of the entire apparatus. When the female screw driving member 22 is rotationally driven by the servo motor M, the elevating part K is driven up and down. However, by controlling the rotation speed of the servo motor M, the ascending position and the descending distance of the elevating part K can be varied.
[0031]
The elevating part K is provided with a heat seal part S2 that performs horizontal sealing at the upper stage, and a clamping pressure cooling part C at the lower stage. The heat seal part S2 and the clamping pressure cooling part C are mounted on the lifting base 20 and move up and down together with the lifting base 20 with a constant distance in the vertical direction between the heat sealing part S2 and the clamping pressure cooling part C.
[0032]
In the heat seal portion S2, a drive cylinder 23 fixed to the elevating base 20 is provided, and the drive link 24 connected in a dogleg shape by the plunger of the drive cylinder 23 is driven to extend and contract. The plunger of the drive cylinder 23 is connected to a connection fulcrum 24 a at the midpoint of the drive link 24. One end of the drive link 24 is connected to the drive plate 25 and the other end is connected to the drive plate 26. In FIG. 1, the drive link 24 has a dogleg shape, but when the plunger of the drive cylinder 23 is pulled from this state, the drive link 24 extends linearly, the drive plate 25 extends in the X2 direction, and the drive plate 26 extends in the X1 direction. Move symmetrically. A pair of rods 27 is fixed to one drive plate 25, the rods 27 are slidably inserted into the drive plate 26, and a receiving plate 28 is fixed to the tip of the rod 27. When the drive plate 25 is driven in the X2 direction by the drive cylinder 23, the receiving plate 28 connected by the rod 27 moves together in the X2 direction.
[0033]
The drive plate 26 is fixedly provided with a heat seal member (thermal welding plate) 29 serving as a first seal member facing each of the three cylindrical films, with the cylindrical film interposed therebetween. A counter plate 31 faces the heat seal member 29. The counter plate 31 is supported on the receiving plate 28 via a shock absorber 32.
[0034]
In the heat seal portion S2, when the plunger of the drive cylinder 23 is pulled and the drive link 24 extends linearly, the drive plate 26 is driven in the X1 direction, and the drive plate 25, the rod 27, and the receiving plate 28 together are X2. The cylindrical film is crushed by the heat seal member 29 and the counter plate 31 provided on the drive plate 26 by being driven in the direction, and the film is thermally welded by the heat applied from the heat seal member 29 to the film. . The upper part of FIG. 5C shows a state in which the cylindrical film is crushed and thermally welded, and the heat seal portion is indicated by reference numeral 3a.
[0035]
The driving mechanism of the sandwiched cooling part C is substantially the same as that of the heat seal part S2. That is, a drive cylinder 35 is fixed to the elevating base 20, and one end of a dog-shaped drive link (same as indicated by reference numeral 24) driven by a plunger of the drive cylinder 35 is connected to the drive plate 36. The ends are connected to the pinching members 37, respectively. A pair of rods 38 fixed to the drive plate 36 are slidably inserted into the pinching member 37, and a receiving plate 39 is fixed to the tip of the rod 38. A counter plate 41 is supported on the receiving plate 39 via a shock absorber (not shown). The pinching member 37 and the counter plate 41 function as a driving member and a cooling member for intermittent feeding.
[0036]
In the clamping pressure cooling section C, when the plunger of the driving cylinder 35 is sucked and the dog-shaped driving link extends linearly, the clamping member 37 is driven in the X1 direction, and the driving plate 36 and the driving plate 36 are The fixed rod 38 and the receiving plate 39 fixed to the rod 38 are driven together in the X2 direction. As a result, as shown in FIG. 5C, the cylindrical body 1A is pinched by the pinching member 37 and the counter plate 41, and the heat seal portion 3a is cooled. In addition, while the heat seal portion 3a is pinched by the pinching member 37 and the counter plate 41, the entire lifting portion K moves in the downward direction, thereby intermittently moving downward in the figure with respect to each film 1 and the cylindrical body 1A. Feed force is given. That is, the intermittent feeding force of the cylindrical body 1 </ b> A is exhibited by the moving force of the pinching member 37 and the counter plate 41. However, the cylindrical body 1 </ b> A may be intermittently fed by a force that sandwiches and lowers the cylindrical body 1 </ b> A between the heat seal member 29 and the counter plate 31.
[0037]
In the clamping pressure cooling unit C, a cutter holder 42 is provided on the receiving plate 39, and a cutter (notch forming member) 43 is supported on each cutter holder 42. When the heat seal portion 3a is pinched by the pinching member 37 and the counter plate 41, the cutter 43 makes a cut in the heat seal portion 3a, and this cut is a notch shown in FIGS. 5C and 5D. 4 This notch 4 is a part that becomes a trigger when the completed bag body W is opened.
[0038]
As shown in FIG. 1, an ultrasonic seal portion S3 is provided below the elevating portion K. In the ultrasonic seal portion S3, the holder 45 is fixed to the gantry of the entire apparatus without moving in the feeding direction of the cylindrical body 1A, and the horn 46 and the anvil which are opposed to each other with the films 1 sandwiched in the holder 45. 47, that is, an ultrasonic seal member serving as a second seal member is provided. In addition, drive means for pressing the horn 46 and the anvil 47 together is provided. The heat seal portion 3a welded by the heat seal portion S2 is further ultrasonically welded by the ultrasonic seal portion S3, and the seal portion 3b shown in the lower part of FIG. 5C is completed.
[0039]
Further, a cutting mechanism is provided at a position below the ultrasonic seal portion S3. With this cutting mechanism, the seal portion 3b is cut along a cutting line LL shown in FIG. Separated into individual bags W shown.
FIG. 1 shows a control unit 50 that controls the operation of the entire apparatus. By this control unit 50, a drive unit 51 of a servo motor M that drives the lifting unit K up and down, the drive cylinders 23 and 35, and an ultrasonic seal. Part S3 is controlled.
[0040]
Next, the operation of the bag making apparatus will be described.
As shown in FIG. 1, the belt-like film F is cut by a cutter 12 and separated into a plurality of strips 1 having a constant width. Each film 1 is formed into a cylindrical shape by the forming hole 16a of the forming plate 16, and the edges 1a of the film 1 are guided by the guide claws 17 so as to be in a palmed state (see FIG. 5A).
[0041]
In the elevating part K, the female screw driving member 22 is rotationally driven by the power of the servo motor M, the elevating force is applied to the screw shaft 21, and the elevating part K repeats the elevating operation. In the meantime, in the clamping pressure cooling section C, the driving plate 35 and the clamping member 37 are driven by the driving cylinder 35, and the clamping member 37 and the opposing plate 41 repeat the pressing / separating operation. 2, the pressing member 37 and the opposing plate 41 move away from the lowered position (1) to the separated position (2), and further rise by the feed amount. The position (3) is reached, and further pressed against each other to reach the clamping position (4). Each film 1 is stopped during the period from the lowered position (1) to the clamping position (4) through (2) and (3).
[0042]
The box operation described above causes each film 1 to be intermittently fed downward by a predetermined feed amount. During the stop period of the film 1 in this intermittent feed operation (when the elevating part K is raised), the vertical seal portion In S <b> 1, each set of vertical seal members 18 sandwiches the edges 1 a with which the film 1 is held together, and heat is applied from the vertical seal members 18, so that the edges 1 a are heat-sealed together with each other. Then, the vertical seal portion 2 is formed (see FIG. 5B).
The cylindrical body 1A in which the vertical seal portion 2 is formed is filled with contents such as liquid or powder from the filling nozzle 19.
[0043]
Further, the heat sealing member 29 and the counter plate 31 are also in the same box operation, facing the portion to be welded of the cylindrical body 1A at the rising position {circle around (3)}, and then reaching the sandwiching position {circle around (4)}. It is clamped and further lowered to the lowered position {circle around (1)} and is separated to reach the separated position {circle around (2)}. Then, the film is heated by the heat seal member 29 within a predetermined period of time from when the heat seal member 29 reaches the holding position {circle around (4)} to the lowered position {circle around (1)}, thereby forming the heat seal portion 3a.
[0044]
Immediately after the completion of the thermal welding, the heat sealing member 29 and the counter plate 31 are separated from each other and rise by an amount corresponding to the intermittent feed amount, and together, the pinching member 37 and the counter plate 41 of the pinching cooling section C rise. Then, it moves from the rising position (3) to the clamping position (4), and the heat sealing part 3a is clamped by the clamping member 37 and the opposing plate 41. And it descends to the lowered position (1). During this time, the heat sealing portion 3 a is cooled by the pinching member 37 and the counter plate 41, and the notch 4 is formed by the cutter (notch forming member) 43.
[0045]
In addition, during the stop period of the intermittent feeding operation of the film 1 (when the elevating part K is raised), in the ultrasonic seal part S3, the horn 46 and the anvil 47 serving as the second seal members are connected to each heat seal part 3a. And the ultrasonic vibration is applied to the horn 46, and the heat seal portion 3a is further ultrasonically welded to form the seal portion 3b shown in the lower part of FIG. 5C. Further, at the position below the ultrasonic seal portion S3, the intermediate portion of the seal portion 3b is cut along a cutting line LL and separated into individual bag bodies W.
[0046]
Next, the intermittent feeding correction operation of the film 1 and the cylindrical body 1A, that is, the control method of the sealing device of the present invention will be described.
As shown in FIG. 1, the surplus film Fa cut and separated from the belt-like film F is intermittently fed at the same cycle as each separated film 1. Although the mark m is attached to the surplus film Fa, when the tubular body 1A is sandwiched between the heat sealing member 29 and the opposing plate 31 that have reached the sandwiching position (4), The corresponding mark m moves on the detection means P.
[0047]
Here, the intermittent feed amount by which the elevating part K descends after the cylindrical body 1A is sandwiched between the heat seal member 29 and the counter plate 31 is determined by using the average value of the pitch at which the mark m is formed as the reference feed amount L0. It is done. When the average value obtained at a certain time becomes the reference feed amount L0, the descending distance of the elevating part K is set to the reference feed amount L0, and the cylindrical body 1A sandwiched between the pinching member 37 and the opposing plate 41 is The reference feed amount L0 is lowered. When the tubular body 1A stops and the surplus film Fa stops together with this, the detection means P measures whether or not the mark m attached to the surplus film Fa has stopped at the normal position. While the mark m continues to stop at the regular position, the descending distance of the elevating part K is continued at the reference feed amount L0.
[0048]
Next, when the cylindrical body 1A is intermittently fed at the reference feed amount L0 and the film 1 and the cylindrical body 1A are stopped, the mark m is detected on the detection means P at a proper position (for example, detection by the detection means P). If the position shift occurs without stopping at the center of the range, a correction operation is performed. In this correction operation, the elevating part K changes the rising height to the rising position {circle around (3)} and changes the lowering distance to the lowering position {circle around (1)}. Thereby, the intermittent feed amount of the film 1 and the cylindrical body 1A is changed, and the mark m is corrected so as to reach the median value of the detection range of the detection means P. In this correction, the intermittent feed amount may be increased or decreased so that the shift amount of the mark m from the normal detection position is corrected several times, or the shift amount is corrected by increasing or decreasing the single feed amount. May be.
[0049]
And as a result of correction | amendment, if the mark m returns to a regular detection position, after that, the intermittent feed amount of the cylindrical body 1A will be returned to the reference | standard feed amount L0. When the mark m reaches the normal detection position by the detection means P, the portion on the film 1 that is the same position as the mark m reaches the clamping position (4), and the heat seal member 29 and the counter plate 31 It is pinched.
[0050]
Further, when the intermittent feed is repeated a predetermined number of times (for example, about 30 to 40 times or more) and the reference feed amount L0 is corrected, the intermittent feed amount for correction or the feed amount by correction is changed. From the increase / decrease value, the average value of the pitch of the mark m attached to the film 1 or the average value of the shift amount of the mark m is obtained, thereby obtaining a new reference feed amount L0. Thereafter, the elevating part K is moved up and down by the reference feed amount L0, and the film 1 and the cylindrical body 1A are intermittently fed by the L0.
Then, the film 1 and the cylindrical body 1A are repeatedly intermittently fed with the new reference feed amount L0. As a result, if the position of the mark m is displaced, the correction operation is further performed. Then, the reference feed amount L0 is updated again.
[0051]
As described above, in the present invention, when the reference feed amount L0 is set as the intermittent feed amount of the cylindrical body 1A and the mark detection position is shifted during the intermittent feed at the reference feed amount L0, the intermittent feed is performed. The amount is corrected by increasing / decreasing the amount, but the reference feed amount L0 itself can be updated by further adding this correction value.
Therefore, for example, when the average value of the pitch of the mark m gradually changes, changes randomly, or changes regularly from the start to the end of winding of the film 1, the average It becomes possible to follow the fluctuation of the value. For example, when the average value of the pitch of the mark m gradually increases or decreases from the beginning to the end of winding of the original fabric, the film 1 is sequentially fed if the reference feed amount L0 is fixed. Accordingly, the correction value of the intermittent feed amount of the film 1 increases, and the correction operation may not be able to follow. On the other hand, in the present invention, it is possible to prevent the correction amount from becoming excessive as described above by changing the reference feed amount L0 itself.
[0052]
As described above, in order to correct the shift of the detection position of the mark m, the vertical distance of the film 1 and the cylindrical body 1A is corrected by changing the vertical distance of the vertical part K. However, since the ultrasonic seal portion S3 having the second seal member does not move in the feeding direction of the cylindrical body 1A, when the lift distance of the lift portion K is corrected, the heat seal portion 3a formed by the heat seal portion S2. And the ultrasonic seal position by the ultrasonic seal portion S3 may be displaced.
Therefore, in order to prevent such a deviation from occurring, the ascending position and the descending distance (intermittent feed amount) of the elevating unit K are controlled as follows.
[0053]
  For example, the reference feed amount L0 for intermittent feed of the cylindrical body 1A at the start130 mm. In this case, in the elevating part K, the distance between the heat seal member 29 and the counter plate 31 which are the first seal members, and the pinching member 37 and the counter plate 41 is fixed to 130 mm. Further, the heat seal portion 3a is 3 between the position where the cylindrical body 1A is sandwiched between the heat seal member 29 and the counter plate 31 and the position where the horn 46 and the anvil 47 as the second seal member are sandwiched. Exist,SectionBetween materialsIt is assumed that there are N = 4 bag bodies W.
[0054]
As shown in FIG. 3A, when the detection position of the mark m by the detection means P is not shifted, the cylindrical body 1A is intermittently fed with the reference feed amount L0 = 130 mm, but the rising position ▲ 3 The elevating position of the elevating part K is controlled so that the distance between the heat sealing member 29 and the counter plate 31 that has reached ▼ and the clamping position ④, and the horn 46 and the anvil 47 is the reference distance H0 = 520 mm. .
While the reference feed amount L0 is intermittently fed, the detection position of the mark m is displaced, and in order to correct this displacement, the intermittent feed amount of the cylindrical body 1A is set to 0.1 mm from the reference feed amount L0. FIG. 3B shows a state in which the intermittent feed amount Lx = 129.9 mm is shortened and this is repeated several times to correct the mark m detection position to the normal position.
[0055]
  In this case, the ascent position of the elevating part K(3)The distance between the heat seal member 29, the opposing plate 31, the horn 46, and the anvil 47 when reaching theH0519.6 mm shorter by 0.4 mm. At this position, the tubular body 1A is sandwiched between the heat seal member 29 and the counter plate 31, and the pinching member 37 and the counter plate 41, and the elevating part K is lowered.(1)The distance Lx when descending to 129.9 mm is 129.9 mm. As a result, the intermittent feed amount Lx of the cylindrical body 1A can be made shorter than the reference feed amount L0, and the heat sealing position by the heat sealing member 29 and the position where ultrasonic sealing is performed by the horn 46 and the anvil 47, Can be matched.
[0056]
  FIG. 3C shows a case where the intermittent feed amount Lx of the cylindrical body 1A is increased to 130.1 mm and correction is repeated several times in order to correct the shift of the detection position of the mark m. Yes. In this case, the distance Hx between the heat sealing member 29 and the opposing plate 31, the horn 46 and the anvil 47 when the elevating part K is raised is 0.4 mm longer than the reference distance H0, Hx =520.4mm. Also,thisAfter the cylindrical body 1A is sandwiched between the heat seal member 29 and the counter plate 31 at the height position, the elevating part K is in the lowered position.(1)The feed amount Lx to reach 130.1 mm. By setting the lift position and the feed amount of the elevating part K in this way, the heat seal part 3a formed by the heat seal member 29 can be matched with the ultrasonic seal position.
[0057]
4A and 4B show a case where the intermittent feed amount for correction changes randomly.
FIG. 4A shows a case where the intermittent feed amount Lx is changed to 129.9 mm, 130 mm, 130.1 mm, and 130.2 mm in order to correct the deviation of the mark m. At this time, the distance Hx between the heat seal member 29 and the counter plate 31 reaching the ascending position (3) and the horn 46 and the anvil 47 is 520.2 mm. The descending distance of the elevating part K after sandwiching the body 1A coincides with the length 129.9 mm of the bag body (A) located at the bottom of the N packages (immediately above the ultrasonic seal part S3). Let
[0058]
Similarly, in FIG. 4B, the distance between the heat seal member 29 and the counter plate 31 that have reached the ascending position (3), the horn 46 and the anvil 47 is Hx = 520.6 mm. The descending distance (intermittent feed amount) of the elevating part K after sandwiching the cylindrical body 1A with the opposing plate 31 is the distance between the horn 46 and the heat seal part 3a of the bag body (A) located just above the anvil 47. To 130 mm. Thereby, the heat seal part 3a can be made to correspond with an ultrasonic seal part.
[0059]
As described above, the distance between the position of the heat seal member 29 as the first seal member when it is raised and the horn 46 and the anvil 47 as the second seal members are such that there are N bags between them. The intermittent feed amount after the cylindrical body 1A is sandwiched between the heat seal member 29 and the counter plate 31 is set to the lowest value, after being matched with the cumulative value of the intermittent feed amount of the N individual bags. By making it correspond to the dimension between the heat seal portions 3a of the bag body (A), it is possible to prevent the occurrence of deviation between the heat seal portion and the ultrasonic seal portion.
[0060]
As described above, when a shift occurs in the detection position of the mark m, the shift position is corrected by changing the holding position by the heat seal member 29 when the cylindrical body 1A stops and changing the intermittent feed amount. However, at this time, the distance Hx between the heat seal member 29 and the ultrasonic seal portion is set as shown in FIGS. 3 and 4, and the subsequent intermittent feed amount Lx is adjusted to the length of the lowermost bag body. As a result of performing the correction operation, it is possible to prevent the two seal positions from being displaced.
In the present invention, the first seal member is a heat seal member and the second seal portion is an ultrasonic seal member, but the combination of the first seal member and the second seal member is other. There may be.
[0061]
【The invention's effect】
As described above, in the present invention, when the film and the cylindrical body are intermittently fed based on the pitch of the marks attached to the film and sealed at a constant interval, the mark position deviation can be corrected effectively. .
[0062]
In addition, when sealing is performed on the same portion of the cylindrical body, it is possible to prevent the relative displacement of the seal portion due to the correction operation.
[Brief description of the drawings]
FIG. 1 is a perspective view showing the overall structure of a bag making apparatus using a control method for a sealing apparatus of the present invention,
FIG. 2 is a side view showing the welding and cooling process of the bag body and the operation of the pinching member,
FIGS. 3A to 3C are explanatory views showing a method of correcting a sealing operation,
FIGS. 4A and 4B are explanatory diagrams showing a method for correcting a sealing operation,
FIGS. 5A to 5D are perspective views showing a manufacturing process of a bag body,
[Explanation of symbols]
F Strip film
K lifting part
S1 Vertical seal
S2 Heat seal part
S3 Ultrasonic seal
C Clamping cooling unit
1 film
3a Heat seal part
3b Sealed part after ultrasonic welding
4 notches
12 Cutter
16 Molded plate
18 Vertical seal member
19 Filling nozzle
20 Lifting base
29 Heat seal member (first seal member)
31 Opposing plate
37 Clamping member
41 Opposing plate
43 Cutter
46 Horn (second seal member)
47 Anvil (second seal member)

Claims (5)

フィルムで形成された筒状体に内容物を充填した後に、前記筒状体を所定のピッチでシールして筒状体を密閉し個々の袋体を形成するシール装置において、以下の手順を有することを特徴とするシール装置の制御方法。
(1)筒状体を基準送り量L0にて間欠的に送り、その間欠送りの停止時に前記筒状体にシール部材を対向させ、その後にシール部材で筒状体を挟持してシールする、
(2)前記間欠送りの停止時に、シールピッチに対応してフィルムに付されたマークが正規の位置に停止したか否かを、検知手段によって検知する、
(3)前記マークの検知位置が正規の検知位置からずれたときに、筒状体の間欠送り量を前記基準送り量L0に対して増加させまたは減少させて、1回の間欠送りでまたは複数回の間欠送りで前記マークの検知位置が正規の検知位置に至る補正を行い、前記マークの検知位置が正規の検知位置に復帰したら、補正後の間欠送り量を前記基準送り量に戻す、
(4)戻された基準送り量により所定回数の間欠送りを行い、戻された基準送り量に対する補正を行なった時点で、補正のための間欠送り量、または補正による送り量の増減値から、前記マークのピッチの平均値、または前記マークの検知位置のずれ量の平均値を求める、
(5)求めた平均値により新たな基準送り量を求め、新たな基準送り量を前記基準送り量L0として更新し、マーク検知と筒状体の間欠送り動作を継続し、前記マークの検知位置ずれが生じたら、さらに新たな基準送り量を求め、前記基準送り量L0を再度更新していく
In a sealing device that forms individual bags by sealing the cylindrical body at a predetermined pitch after filling the cylindrical body formed of a film with the contents, the following procedure is provided. A control method for a sealing device.
(1) The cylindrical body is intermittently fed at a reference feed amount L0, the sealing member is opposed to the cylindrical body when the intermittent feeding is stopped, and then the cylindrical body is sandwiched and sealed by the sealing member.
(2) When the intermittent feeding is stopped , the detection unit detects whether or not the mark attached to the film corresponding to the seal pitch has stopped at a regular position .
(3) When the detection position of the mark deviates from the normal detection position , the intermittent feed amount of the cylindrical body is increased or decreased with respect to the reference feed amount L0, and a single intermittent feed or plural sensing the position of the mark in the indexing times are have rows correction reaching the detection position of the normal, when the detection position of the mark is restored to the detection position of the normal, returning the intermittent feed amount after correction to the reference feeding amount,
Performs intermittent feeding of a predetermined number of times (4) returned reference feeding amount, at the time of performing the correction to the reference feeding amount returned, the intermittent feed amount for the correction or the variation value for the feed amount by the correction, Find the average value of the pitch of the mark, or the average value of the deviation amount of the detection position of the mark ,
(5) obtains the new reference feeding amount by the average values obtained, updates the new reference feeding amount as the reference feeding amount L0, continuing the intermittent feeding operation of the mark detection and the tubular member, detecting the position of the mark If a deviation occurs, a new reference feed amount is obtained, and the reference feed amount L0 is updated again .
上流位置で筒状体を挟持してシールしながら筒状体の間欠移動に追従して下流側へ移動しさらに筒状体から離れて前記上流位置へ移動して筒状体を挟持する第1のシール部材と、前記第1のシール部材よりも下流側において筒状体の送り方向へ移動することなく設置されて前記第1のシール部材でシールした箇所を重ねてシールする第2のシール部材とを有し、以下のシール動作を行う請求項1記載のシール装置の制御方法。
(a)筒状体を前記基準送り量L0だけ間欠送りするとき、第2のシール部材よりも基準距離H0離れた位置へ第1のシール部材を移動させて筒状体を挟持する、
(b)前記(3)の補正動作で、筒状体の間欠送り量を基準送り量L0に対して増加させまたは減少させる補正を行うときに、第1のシール部材を前記基準距離H0よりも前記補正動作の補正量だけ増加させまたは減少させた距離Hxだけ移動させて筒状体を挟持し、第1のシール部材によるシール箇所と第2のシール部材によるシール箇所との間でのずれを防止する、
A first cylinder that holds and seals the tubular body at the upstream position, moves to the downstream side following the intermittent movement of the tubular body, and further moves away from the tubular body to the upstream position to sandwich the tubular body. And a second seal member that is installed on the downstream side of the first seal member without moving in the feeding direction of the cylindrical body and seals the portion sealed by the first seal member in an overlapping manner. The method for controlling a sealing device according to claim 1, wherein the following sealing operation is performed.
(A) a tubular body when only the intermittent feed the reference feeding amount L0, moves the first sealing member to the reference distance H0 away than the second sealing member, sandwiching the tubular body,
(B) In the correction operation (3), when correction is performed to increase or decrease the intermittent feed amount of the cylindrical body with respect to the reference feed amount L0 , the first seal member is moved to the reference distance H0. The cylindrical body is clamped by moving the distance Hx that is increased or decreased by the correction amount of the correction operation, and between the seal location by the first seal member and the seal location by the second seal member. Prevent misalignment,
第1のシール部材が筒状体を挟持する位置と、第2のシール部材により筒状体をシールする位置との間に、第1のシール部材によるシールが完了したN個の袋体(Nは整数)が存在しているときに、第1のシール部材の挟持箇所と第2のシール部材との距離Hxを、前記N個の袋体の個々の間欠送り量を累積した距離とし、第1のシール部材で筒状体を挟持した後の筒状体の間欠送り量Lxを、前記N個の袋体のうちの第2のシール部材に最も近いもののシール間隔に合わせる請求項2記載のシール装置の制御方法。  Between the position where the first sealing member sandwiches the cylindrical body and the position where the cylindrical body is sealed by the second sealing member, N bags (N Is an integer), the distance Hx between the first seal member clamping portion and the second seal member is a distance obtained by accumulating the individual intermittent feed amounts of the N bags. The intermittent feed amount Lx of the cylindrical body after sandwiching the cylindrical body with one seal member is matched with the seal interval of the N bag bodies closest to the second seal member. Control method of sealing device. 第1のシール部材が筒状体を挟持して移動する移動距離で、または筒状体を挟持して第1のシール部材と一緒に移動する挟圧部材の移動距離で、筒状体の間欠送り量Lxが決められる請求項2または3のいずれかに記載のシール装置の制御方法。The intermittent movement of the cylindrical body at the moving distance that the first seal member moves while sandwiching the cylindrical body or the moving distance of the clamping member that moves together with the first seal member while sandwiching the cylindrical body The control method of the sealing device according to claim 2, wherein the feed amount Lx is determined. フィルムで筒状体を形成する前に、前記マークが付されているフィルムの縁部を切り離して、この切り離された余剰フィルムを筒状体とは別の経路で送り、前記検知手段によって、前記余剰フィルムに付されたマークの停止位置を検知する請求項2ないし4のいずれかに記載のシール装置の制御方法。Before forming the cylindrical body with the film, cut off the edge of the film to which the mark is attached, and send the separated excess film through a path different from the cylindrical body , The control method of the sealing apparatus in any one of Claim 2 thru | or 4 which detects the stop position of the mark attached | subjected to the excess film.
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