JP4863907B2 - Vacuum packaging method and apparatus for meat parts - Google Patents
Vacuum packaging method and apparatus for meat parts Download PDFInfo
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- JP4863907B2 JP4863907B2 JP2007061958A JP2007061958A JP4863907B2 JP 4863907 B2 JP4863907 B2 JP 4863907B2 JP 2007061958 A JP2007061958 A JP 2007061958A JP 2007061958 A JP2007061958 A JP 2007061958A JP 4863907 B2 JP4863907 B2 JP 4863907B2
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本発明は、解体した主に豚肉の部位(以下単に部位と記載する。)を、その部位の構造に応じて5 種類に分別する共に、その分別した各部位を、それらに適応する大きさの包袋に充填しかつ真空包装する方法及び装置に関する。 According to the present invention, a portion of pork that has been disassembled (hereinafter simply referred to as a portion) is classified into five types according to the structure of the portion, and each of the separated portions has a size that can be adapted to them. The present invention relates to a method and an apparatus for filling a bag and vacuum packaging.
解体後の豚肉は、大勢の作業員による骨抜き及び脂削りを経て、図2のように、カタ01、カタロース02、ロース03、バラ04、モモ05の、5種類に整形され、コンベヤラインによって順次混然とした状態で送り出されるが、これら5種類の部位を、大きさの異なる包袋に充填しかつ真空包装体とするには、下記特許文献1に示される装置を用いて行うことができる。 After being disassembled, the pork undergoes bone removal and fat scraping by a large number of workers, and as shown in FIG. 2, the pork is shaped into five types: Kata 01, Catalose 02, Loose 03, Rose 04, and Momo 05. Although it is sent out in a congested state, in order to fill these five types of parts into sachets of different sizes and to form a vacuum package, it can be performed using the apparatus shown in Patent Document 1 below. .
すなわち前記の特許文献は、コンベヤラインに設置したイメージセンサーによって、搬送される各種部位を分別し、分別した各部位を、後域の並列状に配置した複数のコンベヤそれぞれに配置した真空包装機に送り込んで包装することを示し、またカタと、カタロースは、他の3種類の部位に比較してそれぞれ容積が小さく、これらカタと、カタロースとを一つの包装体とすることで、他の3種類の部位を含めて1頭の豚を、4種の包装体(背骨を隔てて左右それぞれ4種、総計8個の包装体)として完成させ得る可能性を示している。 In other words, the above-mentioned patent document separates various parts to be transported by an image sensor installed in a conveyor line, and each of the separated parts is arranged in a vacuum packaging machine arranged in each of a plurality of conveyors arranged in parallel in the rear area. It shows that it is sent and packaged, and the volume of Kata and Catalose is smaller than that of the other three types of parts. By making these Kata and Catalose into one package, the other three types This shows the possibility that one pig including this part can be completed as four types of packaging (four types on the left and right sides of the spine, a total of eight packages).
ただ図3の搬送軌道11を縦列移動する5種類の部位の配列順位は、整形に携わる作業員が前記ベルトコンベヤに各部位を混然と投げ入れる関係で、1つの包装体として完成させようとして、カタ01とカタロース02とが密着して移送されることはないので、他の、個々の包装体となるロース03、バラ04、モモ05の、3種の包装に比較して、これらカタ01とカタロース02は、その間隔の広がり分だけ包装能率が落ちて累計的にこれら部位に余剰が起こるという問題が生ずる。 Just five site sequence order of the conveyor track 11 to column moves in Figure 3, in relation workers involved in shaping throwing the混然each part to said belt conveyor, trying to complete as one package In this way , Kata 01 and Catalose 02 are not transported in close contact with each other. Compared to the other three types of packaging, Rose 03, Rose 04, and Peach 05, these Kata For 01 and catalose 02, there is a problem that the packaging efficiency is lowered by the extent of the interval and a surplus occurs in these parts cumulatively.
そこで本発明は、他の、3種類の部位の包装に比較する、前記カタ01とカタロース02との集合体の余剰現象を防止して能率に優れる包装手段を提供する。さらに前記特許文献1に示すように、部位を上下2枚のポリエチレンフイルムの間で真空包装するタイプは、開口部を1 辺にしか持たない包袋でもって包装した場合に比べて、生菌数の変化率が大きく不利という報告があるので、本発明は部位の腐敗率を改善するために包袋を使用して部位を真空包装する技術を開示する。また、部位を2枚のポリエチレンフイルムの間で真空包装するタイプでは、その開口部をヒートシールする場合にそのヒートシール部にどうしても皺が多く発生して真空気密を損なうので、皺のないヒートシールを行うことも目的の1つである。 Therefore, the present invention provides a packaging means that is superior in efficiency by preventing the excessive phenomenon of the aggregate of the cata 01 and catalose 02, as compared with the packaging of other three types of parts. Furthermore, as shown in Patent Document 1, the type in which the part is vacuum-packed between two upper and lower polyethylene films is more viable than the case of packaging with a wrapping bag having an opening only on one side. Therefore, the present invention discloses a technique for vacuum packaging a part using a wrapping bag in order to improve the decay rate of the part. In addition, in the type where the part is vacuum-packed between two polyethylene films, when the opening is heat-sealed, the heat-sealed part inevitably generates many flaws and impairs vacuum tightness. It is one of the purposes to perform.
本発明の方法は、搬送軌道を運搬する豚肉の部位の質量を、順次測定して分別すると共に、この分別情報のうちのロースとバラとモモとからなる部位と、カタとカタロースとを纏めた1種の部位とを、前記搬送軌道に続く分別搬送機構により分離して各コンベヤラインに移乗させ、前記コンベヤラインで移送中のカタとカタロースとの間隔を遅延検出センサーで検出し、前位の部位に対する後位の部位の遅れを高速運搬付加手段でもって加速修正して両部位を一体化し、前記コンベヤラインそれぞれにおいて包袋を開口する傍ら、前記各コンベヤライン末端それぞれに設置した真空包装用の各耐圧チャンバーの底板となる定盤を、前記の開口した各包袋の下側に向けて前進させて、この各定盤上で前記部位を各包袋内に押し込み、前記定盤上で前記各包袋の開口縁に断続シールを行ったあと、前記定盤を前記耐圧チヤンバー位置まで引き戻して、同耐圧チヤンバー内で各部位をそれぞれ真空包装することを特徴とする。 The method of the present invention measures and separates the mass of the pork parts that are transported on the transport track in order, and summarizes the parts composed of loin, roses, and peaches, and cata and catalose in this separation information. One part is separated by a separation transport mechanism following the transport track and transferred to each conveyor line, and the interval between the cata and catalose being transferred on the conveyor line is detected by a delay detection sensor. The delay of the rear part with respect to the part is accelerated and corrected by means of high-speed transport addition, and both parts are integrated, while opening the sachet in each of the conveyor lines, for vacuum packaging installed at each end of each conveyor line. A platen serving as a bottom plate of each pressure-resistant chamber is advanced toward the lower side of each opened bag, and the portion is pushed into each bag on each platen. After the performed intermittently seals the opening edge of each wrapper, pulling back the surface plate until the breakdown voltage Chiyanba position, characterized in that each vacuum packaging each part in the same breakdown voltage Chiyanba.
上記方法におけるカタとカタロースを搬送するコンベヤラインに配置した遅延検出センサーは、該コンベヤラインを移送するこれらの部位の移送方向の間隔を検出し、前位の部位に対して同後位を、高速運搬付加手段でもって加速追跡させて一体化するので、他の部位との相対遅れが少なくなり、分別した部位の包装を能率よく行い得る効果がある。しかも前記部位の、包袋への押し込み形式を採用する本発明において、耐圧チャンバーの底板となる定盤は、開口する包袋の下側に向けて前進し、真空包装に先立ち再び蓋材の下に復元する構成であるので、長さが70cm前後の豚肉部位の包袋への押入れ運動量が定盤前進量だけ小さくでき、同機構を簡素化できる効果と同時に、定盤上で包袋の開口面を断続シールで重ねて同包袋の皺をなくすので、最終的に袋口を気密に密封でき、また能率にも優れる。 In the above method, the delay detection sensor arranged on the conveyor line that transports the cata and catalose detects the interval in the transfer direction of these parts that transport the conveyor line, Since it is integrated by carrying out acceleration tracking by means of carrying additional means, the relative delay with respect to other parts is reduced, and there is an effect that the sorted parts can be packaged efficiently. Moreover, in the present invention that employs a method of pushing the part into the wrapping bag, the surface plate serving as the bottom plate of the pressure-resistant chamber advances toward the lower side of the opening wrapping bag, and again under the cover material prior to vacuum packaging. Therefore, the amount of momentum for pushing the pork part around 70 cm into the wrapping bag can be reduced by the advance amount of the surface plate, and the mechanism can be simplified, and at the same time the opening of the wrapping bag on the surface plate Since the surface is overlapped with an intermittent seal to eliminate wrinkles in the enclosed bag, the bag mouth can be sealed airtight in the end, and the efficiency is also excellent.
特許請求の範囲においては、コンベヤラインを移送するカタとカタロースとの間隔を遅延検出センサーで検出、と記載したが、搬送される部位の順序は必ずしもそうとは限らず、カタとカタ、カタロースとカタロース、という順序もありえるので、前記部位の順序の記載は、これらすべてを含むものである。 In the claims, although it has been described that the interval between the catarose and the catalose transporting the conveyor line is detected by the delay detection sensor, the order of the parts to be transported is not necessarily so. Katarosu, since there may be the order of, wherein the order of the sites are those which include these all.
図4においてベルトコンベヤにより形成した搬送軌道11は、各部位10を縦列状に運搬するが、前記部位10の通過域に設置したイメージセンサー12は、その側面と天面に配列する多数個のランプそれぞれから発する赤外線13でもって、通過する各部位10の断面からその太さを測定する一方、同部位10の通過時間から同部位の長さを測定し、その検出信号を制御器14において演算しかつこの測定データから5種類の部位を分別してこれらの分別情報を順次記録する。なお図2に示す屠殺豚の、カタ01及びバラ04は、その内側から内臓を取り除いて薄く整形しているので、その断面積の計算から、ほぼ同形のカタロース02及びロース03との区別は明確に選別できる。なお前記のイメージセンサー12を上部と側面とに配置するカメラにより構成することもある。 In FIG. 4, the transport track 11 formed by the belt conveyor conveys each part 10 in a tandem shape, and the image sensor 12 installed in the passing region of the part 10 has a large number of lamps arranged on the side surface and the top surface. While measuring the thickness from the cross section of each passing part 10 with the infrared rays 13 emitted from the respective parts, the length of the part is measured from the passing time of the part 10 and the detection signal is calculated in the controller 14. In addition, five types of parts are classified from the measurement data, and the classification information is sequentially recorded. The slaughter pigs shown in FIG. 2 have the shape of the cata 01 and rose 04 which are thinly shaped by removing the internal organs from the inside thereof, so that the distinction from the almost identical catalose 02 and loin 03 is clear from the calculation of the cross-sectional area. Can be selected. The image sensor 12 may be configured by a camera arranged on the upper part and the side face.
大勢の作業員によって整形されかつ図3の運搬送軌道11の上流域に集積される各部位は、一定のタイミングでもって前記の搬送軌道11に送り込まれるが、同運搬軌道11の矢印方向への移動速度は、運搬する部位の慣性を抑えるために1秒当たり約1m以上の設定は難しい。特にロース03及びバラ04はその長さが70cm前後もあり、この最大長の部位を1秒当たり約1mで運搬するとき、部位1個の長さ70cmを基準にして前位の部位と、後続の部位との間には、50cm以上の隙間を形成しなければ各部位の送り出しタイミングの形成がむつかしいので、各部位の搬送ピッチを1.5秒間隔に設定する。 Each part that is shaped by a large number of workers and accumulated in the upstream region of the transporting trajectory 11 in FIG. 3 is sent to the transporting trajectory 11 at a fixed timing. It is difficult to set the moving speed to about 1 m or more per second in order to suppress the inertia of the part to be transported. Loose 03 and rose 04, in particular, have a length of around 70 cm, and when transporting this maximum length part at about 1 m per second, the front part and the subsequent part are based on the length of 70 cm per part. Since it is difficult to form the delivery timing of each part unless a gap of 50 cm or more is formed between these parts, the conveyance pitch of each part is set at an interval of 1.5 seconds.
また同図面における部位の搬送状態として5種類すべてを表示したが、このように5種類の部位が順序よく搬送されるとは限らず、同種類の部位が連続することもあれば、同間隔が極端に開くこともあるので、整形部位を運び入れるコンベヤと、図示の搬送軌道11との合流点で、同種類の部位が極端に固まったり、また極端に間隔が開かないようにする機械的コントローラを備え付けることが望ましい。 Moreover, although all five types are displayed as the conveyance states of the parts in the drawing, the five kinds of parts are not always conveyed in this order, and the same type of parts may be continuous, or the same interval may be extremely large. A mechanical controller that prevents the same type of parts from becoming too hard or extremely open at the junction of the conveyor that carries the shaping part and the transport track 11 shown in the figure. It is desirable to provide it.
図1 における搬送軌道11の後位に配置する公知の分別搬送機構15の構造は、両側一対のエンドレスチェンの間に並列架設した各棒材に、スライド可能なガイド部材を設け、前記両エンドレスチェンと各棒材とを回転させ、それに部位を搭載して運搬する公知のコンベヤである。要するに搬送軌道11から部位が1.5秒間隔で順次この分別搬送機構15に移乗すると、制御器14が記憶する各部位の分別情報に基づいてガイド部材は横方向にスライドして、各部位を決められた放射方向(矢印)に分離搬送し、各部位を第1から第4までの4本のコンベヤライン21〜24に移乗させる構造である。 In the structure of a known sorting and transporting mechanism 15 arranged at the rear of the transporting track 11 in FIG. 1, a slidable guide member is provided on each bar member installed in parallel between a pair of endless chains on both sides. It is a well-known conveyor which rotates each bar and carries a part on it. In short, when the parts are transferred from the transport track 11 to the separation and transport mechanism 15 sequentially at 1.5 second intervals, the guide member slides in the horizontal direction based on the classification information stored in the controller 14 so that the parts are moved. It is a structure in which each part is transferred to four conveyor lines 21 to 24 from the first to the fourth in a separated radial direction (arrow).
なお前記の4本のコンベヤラインでの各部位の処理能率を平均化するために、前記4本の各コンベヤラインそれぞれの末端に位置する真空包装用の耐圧チャンバー25までの、各コンベヤライン21〜24の長さをほぼ平均化する。この場合直線的なコンベヤは、その長さによっては設置面積の制約を受けるので、4本の各コンベヤライン21‥‥は、その中間にカーブコンベヤ26を設けて全体を直角状に折り曲げ、さらにそれらの搬送方向に順次、待機コンベヤ27と、部位搬入機構28とを介して袋載積ユニット29を配置する。 In addition, in order to average the processing efficiency of each part in the four conveyor lines, each conveyor line 21 to the pressure packaging chamber 25 for vacuum packaging located at the end of each of the four conveyor lines. 24 lengths are approximately averaged. In this case, since the linear conveyor is restricted by the installation area depending on its length, each of the four conveyor lines 21... Is bent at a right angle by providing a curved conveyor 26 in the middle. The bag stacking unit 29 is sequentially arranged in the conveying direction via the standby conveyor 27 and the part carrying-in mechanism 28.
前記の袋載積ユニット29の具体例は、図5にその側面を、また図6に平面をそれぞれ示しており、台車32上に配置した収容箱33内に、図7に示す2本の感圧性粘着テープ30の接着面に多数の包袋34の口縁31を鱗重ね状に貼り付けて形成したテープバックをジグザグに折り重ねて収容している。前記台車の壁面に固定するモータ35の回転を受ける、ベルト36、引きロール37、リール38は、それぞれのインチング動作で前記包袋31をインチングさせ、その都度、上域の複数の真空カップ39は包袋31を引き上げて感圧性粘着テープ30から剥離する。 A specific example of the bag loading unit 29 is shown in FIG. 5 as a side view and in FIG. 6 as a plan view. In the storage box 33 arranged on the carriage 32, the two feelings shown in FIG. A tape back formed by affixing the rims 31 of a large number of sachets 34 on the adhesive surface of the pressure-sensitive adhesive tape 30 in a scale-like manner is folded and accommodated in a zigzag manner. The belt 36, the pulling roll 37, and the reel 38, which receive the rotation of the motor 35 that is fixed to the wall surface of the carriage, inch the wrapping bag 31 in each inching operation. The bag 31 is pulled up and peeled off from the pressure-sensitive adhesive tape 30.
図1において各袋載積ユニット29に対向するように配置した4個の耐圧チャンバー25の具体例は、図8に示すようにレール40上に移動自在に配置した定盤41と、定位置に固定した鉛直なガイド42に沿って上下動する蓋材43とにより構成する。図1における動力機44の動力でもって回転する主軸45は、電磁クラッチ46を備える4個のチェンホイル或いはクランク47を回転し、対向する各耐圧チャンバー25における前記の定盤を運動させる。つまり図8における定盤41を、動力伝達部材48を介してレール40上で往復動させるのである。 A specific example of the four pressure-resistant chambers 25 arranged so as to face each bag loading unit 29 in FIG. 1 includes a surface plate 41 movably arranged on a rail 40 as shown in FIG. The lid member 43 moves up and down along a fixed vertical guide 42. The main shaft 45 that rotates with the power of the power machine 44 in FIG. 1 rotates four chain wheels or cranks 47 each having an electromagnetic clutch 46 to move the platen in each of the opposing pressure-resistant chambers 25. That is, the surface plate 41 in FIG. 8 is reciprocated on the rail 40 via the power transmission member 48.
また図1において前記各耐圧チャンバー25手前の4基の部位搬入機構28は、図9のごとく回転式のコンベヤベルト16からなり、モータ17によって回転する前記のコンベヤベルト16は、袋載積ユニット29の際の停止センサー18が検出することで停止して運搬する部位10をその場に待機させる。そして3個のプーリ19の一体変位により、コンベヤベルト16の上面は前方に伸びたり、また後退するのである。 Further, in FIG. 1, the four site loading mechanisms 28 in front of each pressure-resistant chamber 25 are composed of a rotary conveyor belt 16 as shown in FIG. 9, and the conveyor belt 16 rotated by the motor 17 includes a bag loading unit 29. When the stop sensor 18 at the time of detection detects, the part 10 to be stopped and transported is made to stand by on the spot. Due to the integral displacement of the three pulleys 19, the upper surface of the conveyor belt 16 extends forward or backwards.
同図における一対の真空カップ39が袋載積ユニット29から包袋34を持ち上げるセクションと対向して、4本のバーで前記包袋の口を拡張する開口機構50が位置する。この開口機構の詳しくは、図13及び図14に示すごとく両側一対のブロック51に2段屈曲の4本のバー52を支持し、前記ブロック51に固定する電動機53の動力により前記各バー52を回転して包袋34の開口縁を拡張する。また両側一対のフレーム54に固定するガイド棒55は、前記の各ブロック51をスライド自在に支持し、ねじ棒56のスクリュー作用により前記ブロック51を前記ガイド棒55に沿って変位させる構造であり、図10のように真空カップ39が包袋34を持ち上げると、前記包袋内に突入する前記4本のバー52は同包袋の開口縁を、部位10の挿入が容易なように拡張する。 A pair of vacuum cups 39 in the same figure is opposed to a section where the bag 34 is lifted from the bag stacking unit 29, and an opening mechanism 50 for expanding the mouth of the bag with four bars is located. As shown in detail in FIG. 13 and FIG. 14, the opening mechanism supports four bars 52 bent in two steps on a pair of blocks 51 on both sides, and each bar 52 is driven by the power of an electric motor 53 fixed to the block 51. Rotate to expand the opening edge of the sachet 34. The guide rod 55 fixed to the pair of frames 54 on both sides is a structure that slidably supports each of the blocks 51 and displaces the block 51 along the guide rod 55 by the screw action of the screw rod 56. When the vacuum cup 39 lifts the wrapping bag 34 as shown in FIG. 10, the four bars 52 that enter the wrapping bag expand the opening edge of the wrapping bag so that the portion 10 can be easily inserted.
そして図11のように、袋口を拡張した包袋34をこれら各バーは後退してコンベヤベルト16とその上の部位10とに被せ、そのあと図12のようにコンベヤベルト16と、各バー52とは同調して部位10を包袋34内に挿入する。なおこの場合、重量のある部位10を支えるコンベヤベルト16の突き出し量を半減させるために、図10から図12に図示するように定盤41は部位搬入機構28に向けて規定位置まで前進する。 Then, as shown in FIG. 11, the bags 34 with the expanded bag mouths are retracted to cover the conveyor belt 16 and the portion 10 thereon, and then the conveyor belt 16 and each bar as shown in FIG. In synchronization with 52, the part 10 is inserted into the sachet 34. In this case, in order to halve the amount of protrusion of the conveyor belt 16 that supports the heavy portion 10, the surface plate 41 advances to a specified position toward the portion carry-in mechanism 28 as shown in FIGS. 10 to 12.
図1における4本のコンベヤラインにおける4本の待機コンベヤ27は、その後位の部位搬入機構28に設定数以上の部位が乗り込むのを制限するため後続の部位をその上で待機させが、これら4基の待機コンベヤ27はそれぞれ搬送する部位の長さを再検出する第2イメージセンサー60を備える。既に説明したように搬送軌道11に配置した第1イメージセンサー12は、搬送する各部位の長さを制御器14に記録しているが、各コンベヤラインを移送する部位を作業員が抜き取った場合の対抗策として、通過する部位の長さを第2イメージセンサー60で再測定して制御器14再記録し、図12におけるコンベヤベルト16の回転角をコントロールして部位10を、定盤のシール台48の内面49を超える位置まで送り込むのである。 The four standby conveyors 27 in the four conveyor lines in FIG. 1 wait for subsequent parts on the subsequent part carry-in mechanism 28 in order to limit the entry of more than a set number of parts onto these parts. Each of the basic standby conveyors 27 includes a second image sensor 60 for redetecting the length of the part to be conveyed. As described above, the first image sensor 12 arranged on the transport track 11 records the length of each part to be transported in the controller 14, but when an operator extracts the part to be transported by each conveyor line. As a countermeasure, the length of the passing part is re-measured by the second image sensor 60 and re-recorded by the controller 14, and the rotation angle of the conveyor belt 16 in FIG. It feeds to a position beyond the inner surface 49 of the table 48.
図13及び図14において前記の両側一対のブロック51は、それぞれモータ58の動力によって開閉する袋口緊張爪59を備える。図15のように包袋34に部位10が押し入れられ、コンベヤベルト16が後退してバー52による袋口の拡張が緩むと、前記一対の袋口緊張爪59は袋口を両側に緊張させる一方、サブシール台57に向けて上方から仮シールバー(図示省略)が下降し、袋口に断続シール61を施す。 Wherein on both sides a pair of blocks 51 13 and 14, each with a bag mouth tension pawl 59 opened and closed by the power of the motor 58. When the portion 10 is pushed into the wrapping bag 34 as shown in FIG. 15 and the conveyor belt 16 is retracted and the expansion of the bag mouth by the bar 52 is loosened, the pair of bag mouth tension claws 59 tension the bag mouth to both sides. Then, a temporary seal bar (not shown) descends from above toward the sub seal base 57, and an intermittent seal 61 is applied to the bag mouth.
その直後、図8のように定盤41は蓋材43の下域に復帰する。既に説明したようにこの定盤41が蓋材43の下から離れ、図8の蓋材43の下に復帰するまでの時間を5秒に設定する。要するに図10〜図12における部位の袋充填には5秒近くの時間を要するわけである。一方、リフトプレート63下のエアバック64内の空気を抜いて部位10を下降させながら、蓋材43をガイド42に沿って下動したあと、ホース65からの空気吸引で生ずる気密空間での真空下で、下降するシールバー66と、シール台48との挟圧で袋口を溶着したあと、蓋材43を再び定盤41から開放するまでの時間は少なくて8秒間それ以上である。そこで蓋材43の定盤41に被さる時間をタイマーで8秒間と設定する。 Immediately thereafter, the surface plate 41 returns to the lower region of the lid member 43 as shown in FIG. As described above, the time until the surface plate 41 moves away from the bottom of the lid member 43 and returns to the bottom of the lid member 43 in FIG. 8 is set to 5 seconds. In short, it takes nearly 5 seconds to fill the bag in the region shown in FIGS. On the other hand, after removing the air in the airbag 64 below the lift plate 63 and lowering the part 10, the lid 43 is moved down along the guide 42, and then the vacuum in the airtight space generated by the air suction from the hose 65 is performed. Below, after the bag mouth is welded by the clamping pressure between the lowering seal bar 66 and the sealing base 48, the time until the lid member 43 is opened again from the surface plate 41 is at least 8 seconds. Therefore, the time for covering the surface plate 41 of the lid member 43 is set to 8 seconds with a timer.
図16における4基の耐圧チャンバー25の閉鎖時間は上記したようにそれぞれ8秒間である。一方、この各耐圧チャンバーに向けて運ばれてくる部位の間隔を1.5秒ピッチに設定すると、5種類の部位が順次よく運ばれると仮定して、第4コンベヤライン24に搬入するカタ01とカタロース02とが密着するまでの、1基の耐圧チャンバー25への部位の到達は7.5秒間隔であり、各部位の耐圧チヤンバーに向けての到達数は徐々に累積する計算になる。しかし本来、混然と運ばれるそれぞれ形状異なる5種類の部位の順序を、機械的コントローラで整頓するにしてはその整頓ピッチが1.5秒では時間不足であり、かかる機械整理方式はあくまでも極端な間隔拡張を阻止する目的のものになる。しかも第1待機線(A)は図1における部位搬入機構28による待機を示し、第2待機線(B)は同じくその手前の待機コンベヤ27を示すように、このような段階的な待機を行うと、第1〜第3の3本のコンベヤベルト21〜23での部位到着の遅れに比較して、2個の部位が一体に集結することが条件の、第4コンベヤベルト24での部位の到着遅れはより拡大する可能性があるので、図17に示すように第4コンベヤライン24に遅延検出センサー68と、上部の一対の加速コンベヤ69とを設けて高速運搬付加手段70形成する。 The closing times of the four pressure-resistant chambers 25 in FIG. 16 are each 8 seconds as described above. On the other hand, if the interval between the parts transported toward the respective pressure-resistant chambers is set to a pitch of 1.5 seconds, it is assumed that five kinds of parts are sequentially transported well, and the cata 01 that is carried into the fourth conveyor line 24 is assumed. The arrival of the part to one pressure-resistant chamber 25 until the catalose 02 comes into close contact with each other is at intervals of 7.5 seconds, and the number of arrivals toward the pressure-resistant chamber at each part is gradually accumulated. However, if the order of the five types of parts that are differently conveyed is originally arranged in order by the mechanical controller, the ordering pitch is 1.5 seconds, which is insufficient. The purpose is to prevent interval expansion. In addition, the first standby line (A) indicates standby by the part carry-in mechanism 28 in FIG. 1, and the second standby line (B) similarly performs standby in stages as shown by the standby conveyor 27 in front thereof. Compared to the delay in arrival of the parts in the first to third three conveyor belts 21 to 23, the condition of the part in the fourth conveyor belt 24 is that the two parts are integrated together. Since the arrival delay may be further increased, as shown in FIG. 17, a delay detection sensor 68 and a pair of upper acceleration conveyors 69 are provided on the fourth conveyor line 24 to form the high-speed transport addition means 70.
つまり前記の遅延検出センサー68が、第4コンベヤライン24を移動する前位の部位に対する後位の部位の遅れ時間を検出すると、両側から接近する加速コンベヤ69は後位の部位10を挟持しかつ高速度で前位の部位との間隔を、制御器が記録する両部位の間隔数値に基づき縮めるのである。この場合、カタ01またはカタロース02は小型軽量であり、運搬速度を上げたときの慣性の影響は、他の、大型部位の慣性の影響より小さく停止時の前方への飛び出し量が小さい。なお前後の部位間隔が、コントロールが利かない間隔に達していても、後続部位の追跡を行なって相対間隔を縮めるので、その分、耐圧チャンバーの開放待機時間は少なくなる。 That is, when the delay detection sensor 68 detects the delay time of the rear part relative to the front part moving on the fourth conveyor line 24, the acceleration conveyor 69 approaching from both sides sandwiches the rear part 10 and The distance from the front part at a high speed is reduced based on the distance value between the two parts recorded by the controller. In this case, the cata 01 or catalose 02 is small and light, and the influence of inertia when the transport speed is increased is smaller than the influence of inertia of other large parts, and the amount of forward protrusion when stopping is small. Even if the interval between the front and rear portions reaches an interval where control is not possible, the relative interval is shortened by tracking the subsequent portion, so that the waiting time for opening the pressure-resistant chamber is reduced accordingly.
図1において制御器14に接続した信号発信部72からの発信号は、4個のクランク47の各電磁クラッチ46を開閉し、耐圧チヤンバー25の定盤を往復動させコントロールする。制御器14から前記の信号発信部72への指令信号は、部位搬入機構28による部位の包袋への押し込み作用に関連し、それによって各耐圧チャンバー25の開閉のタイミングが計られる。図8においてエアバック64内の空気排除により、部位を充填した包袋34を定盤63と一体に下降させ、同時に蓋材43は下降してその内部に形成する気密空間内の空気をホース65から排除する。そのあとシーラ66がシール台48に向けて下降して袋口を溶着する一方、鍬型のストッパー73は、ピン74を軸とするレバー75の操作で下降する。前記ストッパー73は、蓋材43が開放して定盤41が移動するとき、同定盤上の真空包装体を排除する機構である。 Oscillator signal from the signal transmitting unit 72 connected to the controller 14 in FIG. 1, opening and closing the respective electromagnetic clutches 46 of the four crank 47, which controls to reciprocate platen withstand Chiyanba 25. The command signal from the controller 14 to the signal transmission unit 72 is related to the action of pushing the part into the sachet by the part carry-in mechanism 28, whereby the timing of opening and closing each pressure-resistant chamber 25 is measured. In FIG. 8, by removing the air in the air bag 64, the packaging bag 34 filled with the part is lowered integrally with the surface plate 63, and at the same time, the lid member 43 is lowered to remove the air in the airtight space formed therein to the hose 65. To eliminate. After that, the sealer 66 descends toward the seal base 48 and welds the bag mouth, while the saddle-shaped stopper 73 descends by the operation of the lever 75 with the pin 74 as an axis. The stopper 73 is a mechanism for removing the vacuum package on the identification board when the lid member 43 is opened and the surface plate 41 moves.
図18は第4コンベライン24のカーブ部分を示すが、上記の高速運搬付加手段70を用いた部位間隔の調整に拘わらず前後の部位が開いている場合は、カーブコンベヤ26の手前部分の、5本のローラ75を運転するモータ76は、図19のローラ75下域のセンサー77が部位10を検出する信号で停止して同部位10を止め、図17の高速運搬付加手段70により追跡してきた部位10を、縦列する複数のセンサー78で捉えて前記両部位の間隔が設定値に達した信号でもって同モータ76を起動し、前記両部位を一体に後域に送り出すことになる。 FIG. 18 shows the curved portion of the fourth conveyor line 24, but when the front and rear portions are open regardless of the adjustment of the portion interval using the high-speed carrying addition means 70, the front portion of the curved conveyor 26, The motor 76 for driving the five rollers 75 is stopped by a signal detected by the sensor 77 in the lower region of the roller 75 in FIG. 19 to detect the portion 10 and stopped, and is tracked by the high-speed transport adding means 70 in FIG. The part 10 is captured by a plurality of sensors 78 arranged in a row, and the motor 76 is activated by a signal indicating that the distance between the two parts has reached a set value, so that the two parts are fed together to the rear region.
図20に示すように、図17における高速運搬付加手段70の設置域手前側にバイパスコンベヤ80を配置する。このバイパスコンベヤ80は、通常仮想線のように水平状態にある前側のベルト81は、制御器が記録する部位の分別信号でもって実線のように下降して、第4コンベヤライン24から拾い上げた部位10を階上セクションにバイパス誘導する。一方同後方のベルト82は、制御器が記録する分別信号でもって仮想線のように下降し、既に拾い上げている部位を第4コンベヤライン24に再び誘導する。カタ01とカタロース02とは1頭の豚肉として4個存在し、これらが連続する可能性があるので、その一部をバイパスコンベヤ80上で貯留して混雑を解消するのに役立つ。 As shown in FIG. 20, a bypass conveyor 80 is arranged on the front side of the installation area of the high-speed transport addition means 70 in FIG. 17. In this bypass conveyor 80, the front belt 81, which is normally in a horizontal state like a virtual line, descends as shown by a solid line with a parting signal recorded by the controller, and is picked up from the fourth conveyor line 24. Bypass 10 to the upper section. On the other hand, the rear belt 82 descends like an imaginary line with the classification signal recorded by the controller, and guides the already picked up part to the fourth conveyor line 24 again. Kata 01 and catalose 02 exist as four pieces of pork, and these may continue, so that a part of them is stored on the bypass conveyor 80 to help eliminate congestion.
前記場合、下域の第4コンベヤライン24を移動する部位の種類をカタ01のみに設定すると、バイパスライン80はカタロース02のみをバイパスさせる。つまり前後2個のセンサー78,79によって2個のカタロース02をバイバスコンベヤ上に接近して留め、下域の第4コンベヤライン24を2個のカタ01が連続して通過するのを待って、留めて置いた2個のカタロース02を続いて送り出すというコントロールをしたり、また下域のカタ01の通過に連続して上域から1個のカタロース02を送り出してこれら2種類の部位を組み合わせるというコントロールを行うのである。 In this case, if the type of the part that moves the lower fourth conveyor line 24 is set to only Kata 01, the bypass line 80 bypasses only Catalose 02. In other words, the two catalose 02 are moved close to the bypass conveyor by the two sensors 78 and 79 in the front and back, and the two cata 01 are continuously passed through the lower fourth conveyor line 24. Control that two catalose 02s that have been kept are sent out continuously, or send out one catalose 02 from the upper region in succession to passing the lower cata 01 and combine these two types of parts Control.
図21は、図17における高速運搬付加手段70を設計例であり、第4コンベヤライン24を複数の紐ベルトにより形成する一方、この紐ベルトの間に、高速モータ79によって回転する別箇の紐ベルト84を配置する。第4コンベヤライン24で搬送される前後両部位10の間隔をセンサー85検出すると、複数の作動機86はレバー87をピン88を支点にして逆時計の方向に回転して、前記レバー先端の滑車89でもって紐ベルト84を、第4コンベヤライン24よりも上に押し上げて後続部位10を加速するのである。 FIG. 21 is a design example of the high-speed carrying addition means 70 in FIG. 17, and the fourth conveyor line 24 is formed by a plurality of string belts, and another string that is rotated by a high-speed motor 79 between the string belts. A belt 84 is disposed. When the distance between the front and rear parts 10 conveyed by the fourth conveyor line 24 is detected by the sensor 85, the plurality of actuators 86 rotate the lever 87 counterclockwise with the pin 88 as a fulcrum, and the pulley at the tip of the lever. 89, the string belt 84 is pushed up above the fourth conveyor line 24 to accelerate the subsequent portion 10.
図12において部位10を包袋34に押し込むコンベヤベルト16は、その上下方向の厚みによって包袋34に引っかかりやすく、それだけ大きな包袋を用意する必要があるので、図22ではコンベヤベルト16の下にスコップ型の皿90は配置し、コンベヤベルト16から移乗する部位10を同皿90で受け、図23のごとく前記皿90を包袋34内に押入れると共に、前記皿90を支持する溝型柄91内に配置した押し出し棒92をモータ93で操作し、その先端のプレート94で部位10を包袋に押し入れる設計例で、図24に示すように前記前記モータ93の動力で回転するギヤ95は、溝型柄91内の、押し出し棒92の下面に形成したラック歯に係合して回転するのである。 12, the conveyor belt 16 that pushes the portion 10 into the wrapping bag 34 is easily caught by the wrapping bag 34 due to its thickness in the vertical direction, and it is necessary to prepare a larger wrapping bag. The scoop-type dish 90 is arranged, the part 10 to be transferred from the conveyor belt 16 is received by the same dish 90, and the dish 90 is pushed into the packaging bag 34 as shown in FIG. A push rod 92 disposed in 91 is operated by a motor 93, and a portion 95 is pushed into the bag by a plate 94 at the tip thereof. As shown in FIG. 24, a gear 95 is rotated by the power of the motor 93. Is engaged with the rack teeth formed on the lower surface of the push bar 92 in the groove pattern 91 and rotates.
10‥‥部位
11‥‥搬送軌道
12‥‥イメージセンサー
14‥‥制御器
15‥‥分別搬送機構
16‥‥コンベヤベルト
18‥‥停止センサー
21〜24‥‥第1〜第4の各コンベヤライン
25‥‥耐圧チヤンバー
27‥‥待機コンベヤ 28‥‥部位搬入機構
29‥‥袋載積ユニット 34‥‥包袋
39‥‥真空カップ
41‥‥定盤
43‥‥蓋材
48‥‥シール台
50‥‥開口機構
59‥‥袋口緊張爪
60‥‥第2イメージセンサー
61‥‥断続シ−ル
68、85‥‥遅延検出センサー
69‥‥加速コンベヤ
70‥‥高速運搬付加手段
84‥‥紐ベルト
DESCRIPTION OF SYMBOLS 10 ... Parts 11 ... Transport track 12 ... Image sensor 14 ... Controller 15 ... Sorting transport mechanism 16 ... Conveyor belt 18 ... Stop sensor 21-24 ... First to fourth conveyor lines 25 ‥‥ withstand Chiyanba 27 ‥‥ standby conveyor 28 ‥‥ site loading mechanism 29 ‥‥ bag Noseki unit 34 ‥‥ wrapper 39 ‥‥ vacuum cups 41 ‥‥ platen 43 ‥‥ lid 48 ‥‥ seal base 50 ‥‥ Opening mechanism 59 ... Tightening claw 60 ... Second image sensor 61 ... Intermittent seal 68, 85 ... Delay detection sensor 69 ... Accelerating conveyor 70 ... High-speed transport additional means
84 ... string belt
Claims (6)
この分別情報のうちのロースとバラとモモとからなる部位と、カタとカタロースとを纏めた1種の部位とを、前記搬送軌道に続く分別搬送機構により分離して各コンベヤラインに移乗させ、
前記コンベヤラインで移送中のカタとカタロースとの間隔を遅延検出センサーで検出し、前位の部位に対する後位の部位の遅れを高速運搬付加手段でもって加速修正して両部位を一体化し、
前記コンベヤラインそれぞれにおいて包袋を開口する傍ら、前記各コンベヤライン末端それぞれに設置した真空包装用の各耐圧チャンバーの底板となる定盤を、前記の開口した各包袋の下側に向けて前進させて、この各定盤上で前記部位を各包袋内に押し込み、
前記定盤上で前記各包袋の開口縁に断続シールを行ったあと、前記定盤を前記耐圧チヤンバー位置まで引き戻して、同耐圧チヤンバー内で各部位をそれぞれ真空包装する
ことを特徴とする肉部位の真空包装方法。 In addition to measuring and separating the mass of the pork parts that are transported along the transport track,
Of the separation information, the portion composed of loin, roses and peaches, and one portion that combines cata and catalose are separated by the separation and transport mechanism following the transport track and transferred to each conveyor line.
The interval between the cata and catalose being transferred on the conveyor line is detected by a delay detection sensor, the delay of the rear part with respect to the front part is accelerated and corrected by the high-speed transport additional means, and both parts are integrated.
While opening the wrapping bag in each of the conveyor lines, the surface plate serving as the bottom plate of each pressure-resistant chamber for vacuum packaging installed at each end of each conveyor line is advanced toward the lower side of each opened wrapping bag. And push the part into each sachet on each surface plate,
After performing intermittent sealing on the opening edge of each sachet on the surface plate, the surface plate is pulled back to the pressure chamber position and each part is vacuum packed in the pressure chamber.
A method for vacuum packaging meat parts .
前記分別情報でもってロースとバラとモモとからなる各部位と、カタとカタロースとを纏めた1種の部位とを分離して各コンベヤラインに移乗させる手段と、
前記カタとカタロースとの間隔を遅延検出センサーで検出し、移送中の前位の部位に対する後位の部位の遅れを高速運搬付加手段でもって加速修正して両部位を一体化させる手段と、
前記コンベヤラインにおいてそれぞれ大きさの異なる包袋を開口する傍ら、前記各コンベヤライン末端対向部にそれぞれに設置した真空包装用の耐圧チャンバーの底板となる定盤を、前記の開口した各包袋の下側に向けて前進させて、この各定盤上で前記部位を各包袋内に押し込み、前記定盤上で前記各包袋の開口縁に断続シールし、前記定盤を前記耐圧チヤンバー位置まで引き戻して、同耐圧チヤンバー内で前記部位をそれぞれ真空包装する機構と、
からなる肉部位の真空包装装置。 Means for sequentially measuring, sorting, and recording the mass of the pork portion that transports the transport track;
Means for separating each part composed of loin, roses and peaches with the classification information, and one part combining cata and catalose and transferring them to each conveyor line;
A means for detecting the interval between the cata and the catalose with a delay detection sensor, and accelerating the delay of the rear part with respect to the front part during transfer by means of high-speed carrying addition means to integrate both parts;
While opening the packaging bags having different sizes in the conveyor line, a platen serving as a bottom plate of a pressure-resistant chamber for vacuum packaging installed at each conveyor line end facing portion is provided for each of the opened packaging bags. Advancing downward, push the part into each wrapping bag on each surface plate, intermittently seal the opening edge of each wrapping bag on the surface plate, and place the surface plate in the pressure chamber position A mechanism for vacuum-packing each of the parts in the pressure-resistant chamber,
A vacuum packaging device for meat parts .
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JP2007061958A JP4863907B2 (en) | 2007-03-12 | 2007-03-12 | Vacuum packaging method and apparatus for meat parts |
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JP2008222265A5 JP2008222265A5 (en) | 2010-02-18 |
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JP5384218B2 (en) * | 2009-06-19 | 2014-01-08 | 株式会社古川製作所 | Commercial meat vacuum packaging equipment |
CN102991754B (en) * | 2012-12-20 | 2015-12-23 | 中创(天津)机械制造有限公司 | A kind of crawl registration device and method |
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US6276115B1 (en) * | 1998-01-30 | 2001-08-21 | Lee Kramer | Method of cutting and packaging formed loin cuts |
JP4020659B2 (en) * | 2002-03-01 | 2007-12-12 | 株式会社古川製作所 | Processing equipment in meat packaging line |
JP4740085B2 (en) * | 2005-11-11 | 2011-08-03 | 株式会社古川製作所 | Supply device for bagging meat parts |
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