JP2005119726A - Packaging method for preventing pinhole from occurring on wrapper for gamma-irradiation-sterilized feed - Google Patents
Packaging method for preventing pinhole from occurring on wrapper for gamma-irradiation-sterilized feed Download PDFInfo
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Abstract
Description
本発明は、同一包材に大量に包装された固型飼料をγ線照射して無菌化した後、輸送や保管を行っても、ピンホールの発生を抑制することが可能な飼料の包装方法に関する。 The present invention relates to a feed packaging method capable of suppressing the occurrence of pinholes even after transportation and storage after sterilization by γ-ray irradiation of a solid feed packaged in large quantities in the same packaging material About.
マウスやラット等の実験動物に用いる試験は高い精度が要求されるようになり、無菌動物や特定病原菌フリーの動物を使用する機会が増えてきている。当然それに伴って用いられる飼料も無菌であることが要求される。滅菌法にはオートクレーブ処理、電子線照射、γ線照射等が有るが、電子線は透過力が弱いので、飼料のように比重が大きい物を、しかも大量に処理しなくてはならない場合には適していない。したがって、オートクレーブ処理とγ線照射による無菌化が主体であった。ところが、オートクレーブ処理は動物の飼育場所で自ら実施せねばならず、飼育動物の数が増えれば増えるほど処理しなくてはならない飼料の量も多くなり、設備も大型の物が必要となり、処理にもかなりの時間を要する。更に、オートクレーブ処理によって飼料の硬度変化が起こったり、特定の栄養成分が崩壊したりする問題もある。よって、最近は飼料メーカーから購入すればそのまま使用出来るγ線照射滅菌飼料に対する要求が高くなってきている。 Tests used for laboratory animals such as mice and rats are required to have high precision, and opportunities for using sterile animals and animals free of specific pathogens are increasing. Of course, the feed used therewith is also required to be sterile. Sterilization methods include autoclave treatment, electron beam irradiation, γ-ray irradiation, etc., but electron beams have low penetrating power, so if you have to treat a large amount of specific gravity such as feed, Not suitable. Therefore, autoclave treatment and sterilization by γ-ray irradiation were mainly used. However, autoclaving must be carried out by the animal breeding site, and as the number of domestic animals increases, the amount of feed that has to be processed increases, and large-scale equipment is required. Takes a lot of time. Furthermore, there is a problem that the hardness change of the feed occurs due to the autoclave treatment or that a specific nutrient component is destroyed. Therefore, recently, there has been an increasing demand for γ-irradiated sterilized feed that can be used as it is if purchased from a feed manufacturer.
γ線照射滅菌飼料は通常、飼料を製造した後、クラフト袋等に飼料を注入し、上部をヒートシールして密封包装を行った後γ線滅菌を行い、流通させる。輸送中もその密封状態すなわち包装内部の滅菌状態を維持しなければならない。 The γ-irradiated sterilized feed is usually produced after the feed is produced, then the feed is poured into a kraft bag, etc., the upper part is heat sealed and hermetically packaged, and then γ-ray sterilized for distribution. During transport, the sealed state, that is, the sterilization inside the package must be maintained.
しかしながら従来の包装方法の欠点としては、内袋を構成するポリエチレン等を原料とする包材が重なる部分に段差が生じ、この段差部分においてヒートシールが不十分となり、輸送中の様々な物理的衝撃により、その部分にてピンホールが発生するということが挙げられる。特に実験動物用の飼料の場合には、このピンホールから雑菌が侵入し、実験用飼料としての価値を減じる事態が生じる。 However, the disadvantage of the conventional packaging method is that there is a step in the overlapping part of the packaging material made from polyethylene, etc., which constitutes the inner bag, and heat sealing is insufficient at this step, resulting in various physical impacts during transportation. Therefore, a pinhole is generated at that portion. In particular, in the case of a feed for experimental animals, various bacteria enter from this pinhole, resulting in a situation where the value of the experimental feed is reduced.
ピンホールを防止する包装方法として、例えば下記の特許文献1、2に記載の方法もある。しかしながら特許文献1においては医薬液の入った小型の容器を包装する態様しか開示しておらず、また特許文献2においてはせいぜい数kg程度のレトルト食品のパウチ方法しか開示していない。それらはいずれも比較的小型の物体を包装する手段に留まっており、10〜20kgの重量の飼料を包装し、輸送してもピンホールが発生しないという内容の技術を開示したものではない。
あるいは、製品流通上での衝撃によるピンホールの発生を防ぐ為、飼料を少量ずつ(1〜2kg/袋)小分けし、何重にも包装して密封し、クッション材を入れ、更に段ボール箱に収容してγ線照射して無菌化することも考えられる。しかしながらこのような方法は当然生産コストも高く、売価も高かった。無菌飼料の需要が多くなると、この様な用法では飼料メーカーでの生産が間に合わない事も起こってくるし、使用者からは当然低価格化に対する要求が強くなってくる。 Or in order to prevent the occurrence of pinholes due to impact on product distribution, feed is divided into small portions (1-2 kg / bag), wrapped in multiple layers, sealed, and cushioned, and then put into a cardboard box It is also possible to sterilize by storing and irradiating with γ rays. However, such a method naturally has a high production cost and a high selling price. When the demand for aseptic feed increases, production by feed manufacturers may not be in time for such usage, and users are naturally demanding lower prices.
本発明が解決しようとする課題は、飼料の包装形態を簡略化するとともに一袋当たりの飼料量も増やして合理化による低価格化を目指すとともに、ピンホールの発生を抑制することである。発明者らは鋭意研究を行った結果、これらの相反する要求のいずれも満足させる飼料の包装方法を開発するに到った。 The problem to be solved by the present invention is to simplify the packaging form of feed and increase the amount of feed per bag to reduce the cost by rationalization and to suppress the occurrence of pinholes. As a result of intensive studies, the inventors have developed a feed packaging method that satisfies both of these conflicting requirements.
課題を解決するための手段は、以下の通りである。
<1> 以下の工程、すなわち:
(a)円筒形包材の一端をヒートシールして袋体Aを構成する工程、
(b)袋体Aよりも円周の小さい円筒形包材を同様にヒートシールして袋体Bを構成する工程、
(c)袋体Aに、開口部を同じ方向に向けて袋体Bを挿入し、内袋Cを構成する工程、
(d)内袋Cを、一端にミシンがけ又はオーバーテープを施した外装紙袋Dに、開口部を同じ方向に向けて挿入する工程、
(e)開口状態の袋体Aと袋体Bの間、並びに内袋Cと外装紙袋Dの間を接着剤で固定する工程、
(f)内袋Cに飼料を投入し、該内袋C内の空気を抜いた後、内袋Cの開口部を外装紙袋Dの上からヒートシールする工程、
(g)上記(f)において外装紙袋D上のヒートシールした部分から向かって端側をミシンがけし、内袋Cと外装紙袋Dの一方を固定してクラフト袋Eを構成する工程、及び
(h)クラフト袋Eをγ線照射により滅菌する工程
により構成されることを特徴とする、飼料の包装方法。
<2> 1袋当たりの飼料の内容量が20kg以下である、<1>に記載の包装方法。
<3> 1袋当たりの飼料の内容量が10〜20kgである、<1>に記載の包装方法。
<4> 照射するγ線量が60KGrey以下であることを特徴とする、<1>から<3>のいずれかに記載の包装方法。
<5> 照射するγ線量が30〜60KGreyであることを特徴とする、<1>から<3>のいずれかに記載の包装方法。
<6> 円筒形包材の素材が130μm厚低密度ポリエチレンであることを特徴とする、<1>から<5>のいずれかに記載の包装方法。
Means for solving the problems are as follows.
<1> The following steps:
(A) a step of heat-sealing one end of the cylindrical packaging material to form the bag A,
(B) A step of forming a bag B by similarly heat-sealing a cylindrical packaging material having a smaller circumference than the bag A,
(C) A step of inserting the bag body B into the bag body A with the opening portion directed in the same direction to form the inner bag C,
(D) A step of inserting the inner bag C into the exterior paper bag D having a sewing machine or over tape at one end, with the opening portion directed in the same direction,
(E) a step of fixing an adhesive between the opened bag A and the bag B and between the inner bag C and the outer paper bag D with an adhesive;
(F) A process of heat-sealing the opening of the inner bag C from the top of the outer paper bag D after feeding the inner bag C and releasing the air in the inner bag C;
(G) A step of forming a craft bag E by sewing the end side from the heat-sealed portion on the outer paper bag D in (f) and fixing one of the inner bag C and the outer paper bag D; h) A feed packaging method comprising a step of sterilizing a kraft bag E by γ-ray irradiation.
<2> The packaging method according to <1>, wherein the content of feed per bag is 20 kg or less.
<3> The packaging method according to <1>, wherein the content of feed per bag is 10 to 20 kg.
<4> The packaging method according to any one of <1> to <3>, wherein the γ dose to be irradiated is 60 KGrey or less.
<5> The packaging method according to any one of <1> to <3>, wherein the γ dose to be irradiated is 30 to 60 KGrey.
<6> The packaging method according to any one of <1> to <5>, wherein the material of the cylindrical packaging material is 130 μm-thick low-density polyethylene.
本発明の飼料の包装方法により、飼料の輸送において、従来技術におけるピンホール発生率(10〜30%)を1%未満に低下させることが可能となる。 The feed packaging method of the present invention makes it possible to reduce the pinhole incidence (10 to 30%) in the prior art to less than 1% in feed transportation.
本発明の実施の形態を以下に記す。
はじめに、二枚の円筒型包材を調製し、それぞれ別々にその一端をヒートシールし(図1(c)のXの部分)、袋体A及び袋体B(図1(a)及び(b))を構成する。該包材の素材は特に限定はされず、ポリエステル、ポリエチレン、ナイロン、ポリプロピレン、リニアローデンポリエチレン、エバール等が使用可能であるが、強度及びヒートシールの操作性を考慮すると低密度ポリエチレン、特に130μm厚の低密度ポリエチレンが望ましい。また、袋体Bは袋体Aよりも幅が小さいのが望ましい。なぜなら、袋体Aに、開口部を同じ方向に向けて袋体Bを挿入することにより、二重構造の内袋C(図1(c))を構成するため、袋体の幅が同じ場合には袋体A内部にて袋体Bに皺が形成されてしまい、その後の工程にとって望ましくないからである。
Embodiments of the present invention will be described below.
First, two cylindrical packaging materials are prepared, and one end of each is individually heat-sealed (portion X in FIG. 1 (c)), and bag A and bag B (FIGS. 1 (a) and (b) )). The material of the packaging material is not particularly limited, and polyester, polyethylene, nylon, polypropylene, linear rhoden polyethylene, eval, etc. can be used. However, considering the strength and operability of heat seal, low density polyethylene, particularly 130 μm thick Low density polyethylene is preferred. Moreover, it is desirable that the width of the bag body B is smaller than that of the bag body A. Because, when the bag body B is inserted into the bag body A with the opening portion facing in the same direction, a double-structure inner bag C (FIG. 1 (c)) is formed. This is because wrinkles are formed in the bag body B inside the bag body A, which is undesirable for the subsequent processes.
更にこの内袋を、一端にミシンがけ又はオーバーテープを施して構成された外層紙袋Dへ、開口部を同じ方向に向けて挿入する(図2(a)及び(b))。なお、開口状態の袋体Aと袋体Bの間、並びに内袋Cと外装紙袋Dの間を接着剤で固定するのが望ましい。なぜなら、内袋と外層紙袋の間への飼料の誤入を防止でき、また二枚の内袋が独立して自由に動ける状態なので、この包装方法によると飼料が投入される時に内袋にかかる不均一な力が分散され、ピンホールが生ずることがなくなるからである。 Further, the inner bag is inserted into the outer layer paper bag D formed by sewing or over tape at one end with the opening portion directed in the same direction (FIGS. 2A and 2B). In addition, it is desirable to fix between the bag A and the bag B in the opened state and between the inner bag C and the outer paper bag D with an adhesive. This is because the feed can be prevented from being mistakenly inserted between the inner bag and the outer layer paper bag, and the two inner bags can move freely independently. This is because non-uniform forces are dispersed and pinholes are not generated.
以上のように調製した袋に、自動充填機によって硬く角張った飼料10kgを充填し、その後空気を抜く。なぜなら、この空気を抜く操作を行わないと、γ線照射時に飼料からガスが生じることにより袋が膨脹し、その後の取り扱いに不都合を生じるからである。なお、上記操作は手作業により行っても、あるいは脱気装置を用いて行っても良い。 The bag prepared as described above is filled with 10 kg of hard and square feed by an automatic filling machine, and then the air is evacuated. This is because if the operation for removing the air is not performed, the bag is inflated due to the generation of gas from the feed during γ-ray irradiation, resulting in inconvenience in subsequent handling. The above operation may be performed manually or using a deaeration device.
飼料を充填して空気を抜いた後、内袋Cの開口部を外装紙袋Dの上からヒートシールする(図3)。この時直接内袋にヒートシール処理を行うと、過剰な加熱により袋の重なり部分にピンホールを生じる原因となり、望ましくない。 After filling the feed and venting the air, the opening of the inner bag C is heat sealed from above the outer paper bag D (FIG. 3). If the inner bag is directly heat-sealed at this time, excessive heating causes pinholes in the overlapping portions of the bags, which is not desirable.
その後、内袋シール部分の外側部分に外装紙袋ごとミシンをかけ、内袋と外袋の一方を固定し、クラフト袋Eを構成する(図4)。この際、内袋が外装紙袋内で自由に動かないようにする。この時内袋が自由に動ける状態にしておくと、飼料の輸送や保管時に内袋と外装紙袋がこすれ合って、ピンホールを生ずる原因となる。 Thereafter, a sewing machine is put on the outer portion of the inner bag seal portion together with the outer paper bag, and one of the inner bag and the outer bag is fixed to constitute a craft bag E (FIG. 4). At this time, the inner bag is not allowed to move freely in the outer paper bag. If the inner bag is allowed to move freely at this time, the inner bag and the outer paper bag rub against each other during transportation and storage of the feed, causing a pinhole.
最後に、上記の方法で包装した飼料にγ線照射を行い、滅菌を行う。照射するγ線量は30〜60KGreyが望ましい。照射線量が30KGrey以下では十分に飼料が滅菌されず、逆に60KGrey以上では線量の増加に見合うだけの効果が得られない。なお、照射を行う際、クラフト袋の位置によって照射線量は異なるので、最小照射線量が30KGreyになるように設定するのが望ましい。その場合、同一ロットでの最大照射線量は60KGrey程度になっているものと推定できる。 Finally, the feed packaged by the above method is irradiated with γ rays and sterilized. The γ dose to be irradiated is preferably 30 to 60 KGrey. When the irradiation dose is 30 KGrey or less, the feed is not sufficiently sterilized. On the other hand, when the irradiation dose is 60 KGrey or more, an effect sufficient to meet the increase in dose cannot be obtained. When performing irradiation, the irradiation dose varies depending on the position of the craft bag, so it is desirable to set the minimum irradiation dose to be 30 KGrey. In that case, it can be estimated that the maximum irradiation dose in the same lot is about 60 KGrey.
(比較例1)
第一の比較例として、100μm厚のポリエステル/ナイロン/ポリプロピレンの3層ラミネート構造で、背貼りタイプ(図5の背部ヒートシール部Xa及び底部ヒートシール部Xbにより袋状とした)の一重の内袋Fを作成し(図5(a)及び(b))、これを外装紙袋に挿入した。その後内袋に飼料10kgを入れ、開口部を外装紙袋上からヒートシールして密封した。こうして包装した飼料を30KGreyのγ線照射によって無菌飼料とした。ピンホールの有無は逆性石鹸等の殺菌作用を有する界面活性剤を添加した水槽に飼料を含む内袋部分のみを取り出して浸漬し、袋内への液の滲入を飼料のぬれによる変色を指標にして調べた。その結果、この包装方法では22%(200袋中43袋)にピンホールが認められ、製品として使用に耐えない事がわかった。ピンホールの発生部位は、背貼り部分とヒートシール部分が四重に重なる部位に多く発生し(図5(b)のZa)、また不特定部位にもピンホールが認められた。以上より、本比較例で使用した包材は不適切である事が明らかとなった。
(Comparative Example 1)
As a first comparative example, a polyester / nylon / polypropylene three-layer laminate structure with a thickness of 100 μm, and a single-sided type (bag-shaped by the back heat seal part Xa and the bottom heat seal part Xb in FIG. 5) A bag F was created (FIGS. 5 (a) and (b)) and inserted into an outer paper bag. Thereafter, 10 kg of feed was put in the inner bag, and the opening was heat sealed from above the outer paper bag and sealed. The packaged feed was made sterile feed by irradiation with 30 KGrey of γ rays. The presence or absence of pinholes is determined by taking out only the inner bag part containing the feed and immersing it in an aquarium containing a bactericidal surfactant such as reverse soap, and indicating the infiltration of the liquid into the bag as a color change due to the wetting of the feed I investigated. As a result, in this packaging method, pinholes were recognized in 22% (43 bags out of 200 bags), and it was found that the product could not be used as a product. Many pinholes were generated in a quadruple region where the back-attached part and the heat seal part overlapped (Za in FIG. 5 (b)), and pinholes were also found in unspecified parts. From the above, it was revealed that the packaging material used in this comparative example was inappropriate.
(比較例2)
次に、試験例1より丈夫であると考えられる110μm厚のナイロン/ナイロン/ポリプロピレンの三層ラミネート構造で、背貼りタイプの一重内袋を作成した。試験例1と同じ条件で無菌飼料を作成し、ピンホールを調べた。その結果、31%(130袋中40袋)にピンホールが認められ、試験例1より結果が悪くなった。ピンホールの発生部位は、背貼り部分とヒートシール部分が四重に重なる部分が大部分であった。また、包材の厚さを厚くしたため、γ線照射によって包材が硬化し、むしろ試験例1よりピンホールが発生しやすくなった。以上より、包材が重なって段差が出来ている部分への熱の伝わり方が不均一となり、シール不完全あるいは非常に弱いシール状態になったことが考えられる。これらの問題を解決するためには、ヒートシールを行う内袋部分の段差のない、つまり背貼り部分のない袋を採用すること、及びヒートシールに適した包材の検討が必要であることが示唆された。
(Comparative Example 2)
Next, a back-attached type single inner bag was made with a three-layer laminate structure of nylon / nylon / polypropylene having a thickness of 110 μm, which is considered to be stronger than Test Example 1. A sterile feed was prepared under the same conditions as in Test Example 1, and pinholes were examined. As a result, 31% (40 out of 130 bags) pinholes were observed, and the results were worse than in Test Example 1. The portion where the pinhole was generated was mostly the portion where the back pasting portion and the heat seal portion overlapped in quadruplicate. Further, since the packaging material was thickened, the packaging material was cured by γ-ray irradiation, and pinholes were more likely to occur than in Test Example 1. From the above, it is conceivable that the way in which heat is transmitted to the part where the packaging material overlaps and the level difference is made uneven, and the seal is incomplete or very weak. In order to solve these problems, it is necessary to adopt a bag without a step in the inner bag portion to be heat-sealed, that is, to have a back-attached portion, and to examine packaging materials suitable for heat sealing It was suggested.
(比較例3)
背貼り部分をなくした袋にするため、ラミネート(貼り合わせ)構造ではなく、単一成分の素材を円筒型に成型した包材を採用した。円筒型の130μm厚低密度ポリエチレンの一方をヒートシールし、一重の内袋を作成した。その他は試験例1と同じ条件で無菌飼料を作成し、ピンホール率を調べた。その結果、46%(130袋中60袋)にピンホールが認められ、ピンホールの発生部位は不特定部位であった。すなわち、本比較例の包材は、一重では耐衝撃強度に問題があることが示唆された。
(Comparative Example 3)
In order to make the bag without the back-pasted part, a packaging material in which a single-component material was molded into a cylindrical shape was adopted instead of a laminated structure. One cylindrical 130 μm-thick low-density polyethylene was heat-sealed to form a single inner bag. Other than that, sterile feed was prepared under the same conditions as in Test Example 1, and the pinhole ratio was examined. As a result, pinholes were observed in 46% (60 bags out of 130 bags), and pinholes were not specified. That is, it was suggested that the packaging material of this comparative example had a problem in impact strength when it was single.
(比較例4)
耐衝撃性を強化するため、試験例3と同じ素材である130μm厚円筒型低密度ポリエチレンを内外二枚を重ね合わせ、同時にヒートシールし(図6のX)、内袋Gを作製した(図6)。この内袋を、一端をミシンかけあるいはオーバーテープで固定した外袋紙袋に挿入した。また、内袋の内層と外層の間、内袋と外装紙袋の間に飼料が誤って入るのを防ぐため、内袋を構成する二枚の包材間、内袋と外袋紙袋の間を接着剤で軽く固定した。この袋に飼料10kgを注入し、手で空気を抜いた後、内袋の開口部を外装紙袋上からヒートシールした。更に内袋シール部分の外側部分に外装紙袋とともにミシンがけを行い、内袋と外層紙袋の一方を固定し、内袋が外装紙袋内で自由に動かないようにした。このようにして作成した飼料入り袋を比較例1と同じ方法でγ線照射して無菌飼料とし、同様にピンホール率を調べた。その結果、ピンホール率は7%(130袋中9袋)と比較例3の一重袋に比べて著しく減少したが、まだ5%以上あった。ピンホール率が低下した理由は、二重袋にしたことにより、内袋の内層と外層の間に存在する空気層がクッションの役割を果たし、耐衝撃性が強くなったものと思われる。本比較例のピンホールの大部分は内袋に直接ヒートシールを行った部分であった。内袋を構成する内層と外層の二枚の間で多少大きさに違いがあり、それらを二枚重ねると段差部(図6のZb)が生じてしまう。これをそのままヒートシールすると、重なり部分が弱くなり、輸送する時の衝撃によってピンホールが生じ、飼料部分には至らなくとも、内袋の内層と外層の間には薬液が滲入してしまう。内袋の内層と外層の間に薬液が滲入すると、飼料を無菌室内で開封する時にどうしても薬液が飼料に混入してしまい、好ましくない。しかしながら、外装紙袋上からヒートシールしたシール部分からは飼料部分あるいは内袋の内層と外層の間への薬液の滲入はほとんど認められなかった。これは内袋への直接のヒートシールとは違い、シーラーの間に紙袋を挟むことによって内袋への熱の伝わり方が均一となり、多少の段差の存在にも関わらず均一にヒートシールができたことが示唆された。
(Comparative Example 4)
In order to enhance impact resistance, two inner and outer sheets of 130 μm-thick cylindrical low-density polyethylene, the same material as in Test Example 3, were overlapped and heat sealed simultaneously (X in FIG. 6) to produce an inner bag G (see FIG. 6). This inner bag was inserted into an outer bag paper bag, one end of which was fixed with a sewing machine or over tape. Also, in order to prevent feed from accidentally entering between the inner and outer layers of the inner bag and between the inner bag and the outer paper bag, between the two packaging materials constituting the inner bag and between the inner bag and the outer bag paper bag. Lightly fixed with an adhesive. After pouring 10 kg of feed into this bag and removing the air by hand, the opening of the inner bag was heat sealed from the top of the outer paper bag. Further, the outer bag portion of the inner bag seal portion was sewn together with the outer paper bag to fix one of the inner bag and the outer layer paper bag so that the inner bag did not move freely in the outer paper bag. The feed-containing bag thus prepared was γ-irradiated into the aseptic feed in the same manner as in Comparative Example 1, and the pinhole ratio was similarly examined. As a result, the pinhole ratio was 7% (9 out of 130 bags), which was significantly reduced as compared with the single bag of Comparative Example 3, but was still 5% or more. The reason why the pinhole ratio has decreased is that the double layer bag was used, and the air layer existing between the inner layer and the outer layer of the inner bag served as a cushion, and the impact resistance was considered to have increased. Most of the pinholes in this comparative example were portions where heat sealing was performed directly on the inner bag. There is a slight difference in size between the inner layer and the outer layer constituting the inner bag, and a stepped portion (Zb in FIG. 6) occurs when the two layers are overlapped. If this is heat-sealed as it is, the overlapping portion will be weakened, and a pinhole will be generated due to impact during transportation, and even if it does not reach the feed portion, the chemical solution will permeate between the inner layer and the outer layer of the inner bag. If the chemical solution permeates between the inner layer and the outer layer of the inner bag, the chemical solution is inevitably mixed into the feed when the feed is opened in the sterile room. However, almost no infiltration of the chemical solution into the feed portion or between the inner layer and the outer layer of the inner bag was observed from the sealed portion heat-sealed from the outer paper bag. Unlike direct heat sealing to the inner bag, sandwiching a paper bag between the sealers makes the heat transfer to the inner bag uniform, making it possible to heat seal even though there are some steps. It was suggested that
(比較例5)
また、比較例4におけるヒートシール線を一本ではなく、二本平行にしてヒートシールを行い、内袋Hを作製した(図7)。なお、その他の処理方法は比較例4と同じである。その結果、直接のヒートシール部分のピンホール率は6%(130袋中8袋)と一本線の場合に比べてわずかに改善されたが、初期の目的を達成するには至らなかった。その原因には下記のことが考えられる。すなわち内袋の内層と外層を同時に二枚重ねてヒートシールしている為、内層袋と外層袋が独立して自由に動けないため、内袋への飼料投入時には内袋の各部分へ不均一な力、特に弱いシール部分への集中した力がかかり、該シール部分がはずれ、ピンホールとなる。以上の結果から、少しでも段差のある内袋への直接のヒートシールではピンホールの発生を防ぐのは不可能であることが示唆された。
(Comparative Example 5)
Further, heat sealing was performed with the two heat sealing wires in Comparative Example 4 being parallel instead of one, and an inner bag H was produced (FIG. 7). Other processing methods are the same as those in Comparative Example 4. As a result, the pinhole ratio of the direct heat seal portion was 6% (8 out of 130 bags), which was slightly improved compared to the case of the single line, but did not achieve the initial purpose. The possible causes are as follows. In other words, since the inner and outer layers of the inner bag are heat-sealed by overlapping two layers at the same time, the inner and outer layer bags cannot move freely independently. In particular, a concentrated force is applied to the weak seal portion, and the seal portion is detached to form a pinhole. From the above results, it was suggested that it is impossible to prevent the occurrence of pinholes by direct heat-sealing to an inner bag with a slight level difference.
(比較例6)
内袋のヒートシール部分の段差を無くし、しかも内袋の内層と外層が独立して自由に動けるようにするため、二枚重ねの袋を同時にヒートシールする方法ではなく、内袋部分の内層と外層をそれぞれ別々にシールして袋をつくり、一方を他方へ差し込む方法により二層の内袋を作成した(図1)。その他の処理方法は比較例4と同じである。その結果、ピンホール率は1%(130袋中1袋)となり、比較例5に比較して著しく改善され、本方法の有効性が証明できた。また、1袋のピンホールも輸送時の取り扱い不良による破袋であり、真のピンホール率は0%であった。この方法は工場の生産ラインに適用しうる方法であり、しかもこの方法で作成した無菌飼料のピンホール率は顧客の要求を充分に満足させるものである。この方法を正規の生産ラインに乗せることにより、低価格化も可能となった。以上の経過を経て、従来の無菌飼料より飼料の包装形態を簡略化するとともに一袋当たりの飼料量も増やし、低価格化を可能にするとともにピンホール率の発生を極力低くして顧客の満足を得られる方法が開発出来た。以下、この方法で生産し、実際に販売した5例の詳細を示す。
(Comparative Example 6)
In order to eliminate the step in the heat seal part of the inner bag and to allow the inner layer and outer layer of the inner bag to move independently and independently, the inner layer and outer layer of the inner bag part are not a method of heat sealing two layers of bags simultaneously. Each was sealed separately to make a bag, and two layers of inner bags were made by inserting one into the other (FIG. 1). Other processing methods are the same as those in Comparative Example 4. As a result, the pinhole ratio was 1% (1 bag out of 130 bags), which was significantly improved as compared with Comparative Example 5, and the effectiveness of this method could be proved. One pinhole was also broken due to poor handling during transportation, and the true pinhole ratio was 0%. This method can be applied to a production line in a factory, and the pinhole ratio of aseptic feed prepared by this method sufficiently satisfies customer requirements. By putting this method on a regular production line, the price could be reduced. Through the above process, the packaging form of the feed is simplified and the amount of feed per bag is increased compared to the conventional sterile feed, enabling the price to be reduced and reducing the pinhole rate as much as possible to satisfy customers. We have developed a method that can Hereinafter, details of five cases produced by this method and actually sold are shown.
(実施例)
無菌化した飼料をトラックに搭載し、顧客へ届け、その後ピンホールの検査を行った。検査は殺菌作用を有する界面活性剤を添加した水槽に内袋を浸漬し、飼料部分ならびに内袋の内層と外層の間への薬液混入の有無を肉眼で判断する方法により行った。5回納品した結果は下表の通りである。
The sterilized feed was loaded onto a truck, delivered to the customer, and then the pinhole was inspected. The inspection was conducted by immersing the inner bag in a water tank to which a surfactant having a bactericidal action was added, and judging with the naked eye whether or not there was any chemical mixture between the feed portion and the inner and outer layers of the inner bag. The table below shows the result of delivery 5 times.
本発明の包装方法を用いた場合、10kg程度の重量の飼料を包装しても耐ピンホール性に優れ、かつ飼料の包装作業を簡便に行うことが可能となる。また本発明の包装方法は、飼料のみならず、その他の多様な素材の包装にも適用が可能である。 When the packaging method of the present invention is used, even if a feed having a weight of about 10 kg is packaged, the pinhole resistance is excellent, and the packaging operation of the feed can be easily performed. The packaging method of the present invention can be applied not only to feed but also to packaging of various other materials.
A・・・袋体A、 B・・・袋体B、 C・・・内袋C、 D・・・外装紙袋D、 E・・・クラフト袋E、 F・・・袋体F、 G・・・袋体G、 H・・・袋体H、 X、Xa、Xb・・・ヒートシール部、 Y・・・ミシンがけ部、 Za、Zb、Zc・・・ピンホール発生部位
A ... Bag A, B ... Bag B, C ... Inner bag C, D ... Exterior paper bag D, E ... Craft bag E, F ... Bag F, G .. Bag body G, H: Bag body H, X, Xa, Xb ... Heat seal part, Y ... Sewing machine part, Za, Zb, Zc ... Pinhole generation site
Claims (6)
(a)円筒形包材の一端をヒートシールして袋体Aを構成する工程、
(b)袋体Aよりも円周の小さい円筒形包材を同様にヒートシールして袋体Bを構成する工程、
(c)袋体Aに、開口部を同じ方向に向けて袋体Bを挿入し、内袋Cを構成する工程、
(d)内袋Cを、一端にミシンがけ又はオーバーテープを施した外装紙袋Dに、開口部を同じ方向に向けて挿入する工程、
(e)開口状態の袋体Aと袋体Bの間、並びに内袋Cと外装紙袋Dの間を接着剤で固定する工程、
(f)内袋Cに飼料を投入し、該内袋C内の空気を抜いた後、内袋Cの開口部を外装紙袋Dの上からヒートシールする工程、
(g)上記(f)において外装紙袋D上のヒートシールした部分から向かって端側をミシンがけし、内袋Cと外装紙袋Dの一方を固定してクラフト袋Eを構成する工程、及び
(h)クラフト袋Eをγ線照射により滅菌する工程
により構成されることを特徴とする、飼料の包装方法。 The following steps:
(A) a step of heat-sealing one end of the cylindrical packaging material to form the bag A,
(B) A step of forming a bag B by similarly heat-sealing a cylindrical packaging material having a smaller circumference than the bag A,
(C) A step of inserting the bag body B into the bag body A with the opening portion directed in the same direction to form the inner bag C,
(D) A step of inserting the inner bag C into the exterior paper bag D having a sewing machine or over tape at one end, with the opening portion directed in the same direction,
(E) a step of fixing an adhesive between the opened bag A and the bag B and between the inner bag C and the outer paper bag D with an adhesive;
(F) A process of heat-sealing the opening of the inner bag C from the top of the outer paper bag D after feeding the inner bag C and releasing the air in the inner bag C;
(G) A step of forming a craft bag E by sewing the end side from the heat-sealed portion on the outer paper bag D in (f) and fixing one of the inner bag C and the outer paper bag D; h) A feed packaging method comprising a step of sterilizing a kraft bag E by γ-ray irradiation.
The packaging method according to any one of claims 1 to 5, wherein the cylindrical packaging material is 130 µm-thick low-density polyethylene.
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005186999A (en) * | 2003-12-25 | 2005-07-14 | Oriental Yeast Co Ltd | PACKAGING MATERIAL AND PACKAGING METHOD FOR PREVENTING PIN HOLE FORMED ON STERILIZED FEED RADIATED WITH gamma-RAYS |
JP2006317416A (en) * | 2005-05-16 | 2006-11-24 | Nitto Denko Corp | Sample keeping sheet |
KR100909791B1 (en) | 2006-11-03 | 2009-07-29 | 그린포장 주식회사 | Double bag and its manufacturing method |
KR101090415B1 (en) | 2009-03-05 | 2011-12-07 | 신덕산업 주식회사 | Separable Inner Ply Multi Wall Kraft Paper Bag and Method for Preparing the Same |
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2003
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2005186999A (en) * | 2003-12-25 | 2005-07-14 | Oriental Yeast Co Ltd | PACKAGING MATERIAL AND PACKAGING METHOD FOR PREVENTING PIN HOLE FORMED ON STERILIZED FEED RADIATED WITH gamma-RAYS |
JP2006317416A (en) * | 2005-05-16 | 2006-11-24 | Nitto Denko Corp | Sample keeping sheet |
KR100909791B1 (en) | 2006-11-03 | 2009-07-29 | 그린포장 주식회사 | Double bag and its manufacturing method |
KR101090415B1 (en) | 2009-03-05 | 2011-12-07 | 신덕산업 주식회사 | Separable Inner Ply Multi Wall Kraft Paper Bag and Method for Preparing the Same |
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